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Saturday, November 30, 2019

On the Source of Authority

On the Source of Authority. Hugo Salinas Price. June 26, 2019.

For the sake of brevity, and because this is not a scholarly article, but only an examination of a theme that must be treated in as few words as possible, it is necessary to make some sweeping generalizations.

From the dawn of History and up until relatively recent times, humanity was governed by kings whose will was law; kings were supported by priesthoods who affirmed that the royal power was divinely instituted. Thus, kings were regularly regarded by their subjects as semi-gods.

One of the exclusive rights which kings have enjoyed throughout history was the creation of money. Historians attribute to Croesus, king of Lydia (a region of what is now Turkey) the minting of the first gold coins, which he used as an incentive to get his soldiers to fight. This was sometime around 500 BC.

Gold, and not silver, was the first money used by humanity, because gold was found abundantly in almost pure form in some river beds, whereas silver had to be obtained by processing silver-bearing ores, an activity that came later. Today, small amounts of gold can still be found in river beds.

In antiquity, the production of gold and silver money was considered a sacred activity to be carried out by a priesthood. For instance, Julius Caesar (100 – 44 BC) obtained his first political post, as Pontifex Maximus i.e., “High Priest” in charge of the Roman mint.

The divine right of kings to rule was unquestioned up until the end of the Middle Ages in Europe. The kings of France for centuries had become kings by the ceremony of Anointment with a holy balm, applied to them in a solemn ceremony at the Cathedral of Reims.

The introduction of the invention of printing in Europe, by Gutenberg in 1452 initiated the massive reading of books, which had previously been the privilege of the priesthood and of the wealthy, who had been able to purchase small numbers of very expensive, hand-written books.

One of the consequences of this reading of books was that the authority of the Roman Catholic Church began to be questioned by some thinkers, notably by Martin Luther. Eventually, Luther declared himself quite the enemy of the Catholic Church, which led to the creation of Protestantism. The consequence for Europe was a series of bloody wars of religion.

Since it was the Catholic Church which anointed the kings of Europe and invested them with a Divine Right to rule, the schism in Christianity had the effect of weakening the respect of the populations of Europe, for their kings.

In all preceding ages, under “good” kings and “bad” kings, Their Highnesses never considered it their mission, to rule so that poverty and misery could be eliminated from human life. (An excellent Englishman, Sir Thomas More, disagreed with his monarch Henry VIII, and wrote a book, “Utopia”, in which he spoke of an invented country, Utopia, where gold was eliminated as money and was used to manufacture “chamber pots”; in “Utopia” universal joy and prosperity reigned supreme. Through this fashion of thinking, he became one of the first monetary cranks of our civilization.)

A notable example of the effect of Protestantism upon the rule of kings, was the Puritan Revolution in England: the Puritans under Oliver Cromwell, beheaded their king, Charles I, in1649; among other reasons, he was despised by the Puritans because he was too conservative regarding the “Royal Prerogative” and the Puritans wanted something new in their Sovereign: a “social conscience” and improved institutions for the advancement of a better society.

In due course of time, there came about the “Age of Reason” of the 18th Century. The leading thinkers of Europe – and of the American rebels in the royal colonies of North America – examined the institution of royalty, and came to the conclusion that Reason should be paramount in political affairs, and that kings had no Divine Right at all, from a rational point of view.

The consequence of this “Enlightenment” brought about by the Age of Reason, was the French Revolution of 1789, during which the King of France, Louis XVI and his queen Marie Antoinette were neatly beheaded by means of the recently invented guillotine.

In spite of the French Revolution, parts of Europe continued to be nominally ruled by kings up until 1914. However, the new way of regarding them progressively diminished the importance and power of the remaining monarchs of Europe. No longer were they regarded with the unquestioned awe of the populations they governed. The thinking of the intellectuals of the French Revolution had changed things forever: kings were no longer semi-divine creatures.

It is important to understand the nature of the political transformation which had taken place, and which, perhaps, few thinkers have noted: the French Revolution changed the perception of the Origin of Authority.

In all of History and up to the French Revolution of 1789, Authority was acknowledged as “originating from Above”, that is to say, from the God-appointed Ruler, who ruled by Divine Right and whose word was Law, on down to the People below him. One of the functions of the Ruler, was to determine and to create the monetary system his people were to use. In no way was it in his power to create a state of affairs where poverty and misery were to be eliminated amongst his subjects, the People.

The thinkers of the French Revolution turned this ancient precedent upside-down, declaring that Authority could not possibly come from a single human considered as a king. They maintained – and it is a position that continues quite unquestioned today – that “Authority originates from Below”: that is to say, from the People, who institute governments in order to improve social conditions and progressively eliminate suffering and want among them, the People.

It is the acceptance of Authority as originating from Below, which validates all legislation in the world today, through the counting of votes. Authority to legislate originates in a majority of votes on the part of registered voters, favoring candidates in an election.

“Authority originates from Below” is the principle espoused by a Democracy, and today, for any nation to be accepted in good-standing by other nations of the world, it must be a Democracy. There are a few Kings left in the world, but they are little more than beloved figure-heads, with no power at all. There may also be a few Dictators, but they find themselves ostracized, and they tend to have short lives.

All governments of any consequence today, are based on the principle of “Authority originates from Below”. This is the condition of the world today, and  it is the inheritance left to us by the thinkers of the 18th Century.

One huge consequence of this inheritance has been little noted, if at all:
Kings used to rule absolutely, by Divine Right. and their rule only ceased with their death. On the other hand, elected governments come and go, as they respond to the whims of the voters. Presidents come into office, and leave after their terms expire. The presence of the men and women in a Congress is transitory: policies that are validated by one Congress, are regularly rejected by a succeeding Congress.

By their very nature, Governments around the world today are composed of elected individuals whose presence is transitory, and the political decisions of the Congresses cannot possibly lead to consistent and permanent legislation.

“Nature abhors a vacuum” is a principle of physics that also applies in politics, for the vacuum of Authority that characterizes Democracy is filled by another Power, an unelected Power whose presence is worldwide and whose interests are permanent. The eminently reasonable and well-meaning thinkers of the “Age of Reason” who did away with kings, apparently gave no thought to the existence and the permanent and pernicious interests of this Power, the Power that in fact rules our world today.

What is this mysterious Power, that silently overrides all elected Congresses of the world, and sees to it that no legislation can endanger its own interests?

This Power is vested in the International Banks of the world. Presidents come and go, and are forgotten; legislators come and go, and are forgotten; ministers come and go, and are forgotten, but the International Banks remain; their personnel changes over time, but not their interests.

All institutions tend to change to accommodate themselves to changes in the social institutions of the times. But not the International Banks.

Thanks to the elimination of Kings and their royal right to create money, and their substitution with weak, vacillating Democracies around the world, the International Banks wormed their way into actual Sovereignty in the course of the 19th and 20th Centuries. It is the International Banks that rule our world; Democratic governments are nothing more than decorative institutions to mask the true Authority, which resides in the International Banks.

True to their function as the factual sovereigns of our world, the International Banks decide what is the money that the world shall use, and they themselves issue it as they think fit, to retain and increase their power. Of course, they do all this, for the ostensible purpose of improving the economic conditions of the multitudes.

History records that, in the past, there have been bad kings, and good kings – those who looked after the welfare of their subjects, so far as was in their ability to do so.

But International Banks are impersonal monsters, in that they have no regard at all for the interests of humanity: they care only for their own interest, which is to retain as much power as possible.

Real money – of gold and/or silver – proved in the course of time to be obstacles to the unlimited power which International Banks enjoy, and so they have done away with real money, and have proceeded to indebt the whole world with fake money, to such an extent that the world’s debt threatens to collapse – all the while, alleging that their inflationary programs are essential to “progress and economic development”.

The unrestricted greed of the International Banks will be their undoing, and will leave our world totally prostrated.

Thursday, November 28, 2019

A crazy experiment

Dire future etched in the past: CO2 at 3-million year-old levels. Patrick Galey and Marlowe Hood, Phys.org. Apr. 5, 2019.


The last time there was so much CO2 in Earth's atmosphere, ice caps virtually disappeared


Planet-warming carbon dioxide in Earth's atmosphere—at its highest level in three million years—is poised to lock in dramatic temperature and sea level rises over a timescale of centuries, scientists warned this week.

The last time that CO2 hit 400 parts per million (ppm) Greenland was ice free and trees grew at the edge of Antarctica.

It was long thought that today's greenhouse gas levels were no greater than those 800,000 years ago, during a period of cyclical planetary warming and cooling that would have likely continued but for manmade emissions.

But analyses of ice cores and ocean sediments in the coldest place on Earth have now revealed that 400 ppm was last surpassed three million years ago during the Late Pliocene, when temperatures were several degrees Celsius higher, and oceans at least 15 metres deeper.

At the same time, state-of-the-art climate modelling by experts at the Potsdam Institute for Climate Impact Research (PIK) have correlated directly with the CO2 levels found in these Antarctic samples.

"The Late Pliocene is relatively close to us in terms of CO2 levels," Matteo Willeit, PIK member and lead study author, told AFP.

"Our models suggest that there were no glacial cycles—there were no big ice sheets in the northern hemisphere. CO2 was too high and the climate was too warm to allow big ice sheets to grow."

Nations in 2015 struck the landmark Paris deal on climate change, promising to curb greenhouse gas emissions and limit temperature rises to "well below" 2 Celsius (3.6 Fahrenheit).

Yet 2017 saw emissions levels unsurpassed in human history, and climate experts warn that time has all but run out to drastically slash fossil fuel use and avert runaway global warming.


Seas 15-20 metres higher

Scientists gathered this week in London for a conference on the Pliocene epoch, and highlighted the lessons to be learned today embedded in its ancient ice and sediment samples.


Change in levels of CO2, methane and nitrous oxide in the atmosphere since 1984

"The headline news is that temperatures were 3-4 degrees higher globally than they are today, and sea levels were 15-20 metres (50-65 feet) higher," Martin Siegert, professor of geoscience at Imperial College London, told reporters.

With just 1C of warming so far, Earth is already dealing with floods, droughts and superstorms made worse by rising seas.

Siegert said that 400 ppm didn't mean that the severity of Pliocene sea-level rises was imminent. But unless humans figure a way to suck CO2 out of the air on a massive scale, severe impacts are inevitable, sooner or later.

"There's a lag," he explained. "If you turn on the oven at home and set it to 200C, it doesn't reach that (level) immediately. It's the same for climate."

Siegert said glaciologists, based on current CO2 concentrations, expect between 50 centimetres and one metre of sea-level rise this century.

"It would be difficult for it to be much more than that because it takes time to melt," he added.

"But it doesn't stop at 2100—it keeps going."


Rocketing pace of CO2

In October, the UN concluded that greenhouse gas emissions must decline by about half within 12 years to preserve a chance of capping global warming at 1.5C, the level needed to avoid severe climate impacts.

But despite these and earlier warnings, CO2 emissions from fossil fuel use, construction, aviation and agribusiness continue to rise, and are currently on track to heat up the planet 4C by century's end.

Even without additional carbon pollution, the outlook remains bleak.

Manmade emissions on the other hand have added some 120 ppm of CO2 in a little over a century and a half

"If we stay at 400 ppm, we stay on the course to a Pliocene-like climate," said Tina van De Flierdt, a professor of isotope geochemistry at Imperial.

She warned that under similar conditions to the present day, the Pliocene saw the disappearance of the Greenland ice sheet—which today holds enough frozen water to raise sea levels by some seven metres worldwide.

"The West Antarctica ice sheet holds about 5 metres—that was probably gone," she added.

As is happening today, Earth's poles warmed far quicker than the rest of the planet during the Pliocene, earlier research has shown, including a study in Nature Climate Change.

During earlier periods, Earth has seen sustained concentrations of carbon dioxide was even higher than 400 ppm, but it took millions of years for those increases to occur.

Manmade greenhouse gas emissions, on the other hand, have boosted CO2 levels by more than 40 percent in a little over 150 years.


'A crazy experiment'

At 412 ppm and rising, experts said temperature rises of 3-4C are likely now locked in.

So what happened to Earth the last time CO2 was so prevalent?

It was captured in the trees, plants, animals and minerals alive at the time and buried underground when they died.

"And what we've been doing for the last 150 years is digging it all up and putting it back into the atmosphere," said Siegert.

"It's like a crazy experiment: 'Let's take that CO2 that took 100 million years to be sequestrated and put it back—instantly, on a geological timescale—in the atmosphere and see what happens'".

UNEP Emissions Gap Report 2019

Emissions Gap Report 2019. UN Environment Programme. Nov 26, 2019.

As the world strives to cut greenhouse gas emissions and limit climate change, it is crucial to track progress towards globally agreed climate goals. For a decade, UNEP’s Emissions Gap Report has compared where greenhouse gas emissions are heading against where they need to be, and highlighted the best ways to close the gap.

What’s new in this year’s report?

Update on emissions gap

The report presents the latest data on the expected gap in 2030 for the 1.5°C and 2°C temperature targets of the Paris Agreement. It considers different scenarios, from no new climate policies since 2005 to full implementation of all national commitments under the Paris Agreement. For the first time, it looks at how large annual cuts would need to be from 2020 to 2030 to stay on track to meeting the Paris goals.

Ways to bridge the emissions gap

Every year, the report features ways to bridge the gap. This year, the report looks at the potential of the energy transition – particularly in the power, transport and buildings sectors – and efficiency in the use of materials such as iron steel and cement.

Wednesday, November 27, 2019

We've been blithely betting against them for 30 years

Climate tipping points — too risky to bet against

The growing threat of abrupt and irreversible climate changes must compel political and economic action on emissions.

Timothy M. Lenton, Johan Rockström, Owen Gaffney, Stefan Rahmstorf, Katherine Richardson, Will Steffen & Hans Joachim Schellnhuber. Nature. November 27, 2019.



Politicians, economists and even some natural scientists have tended to assume that tipping points1 in the Earth system — such as the loss of the Amazon rainforest or the West Antarctic ice sheet — are of low probability and little understood. Yet evidence is mounting that these events could be more likely than was thought, have high impacts and are interconnected across different biophysical systems, potentially committing the world to long-term irreversible changes.


Here we summarize evidence on the threat of exceeding tipping points, identify knowledge gaps and suggest how these should be plugged. We explore the effects of such large-scale changes, how quickly they might unfold and whether we still have any control over them.


In our view, the consideration of tipping points helps to define that we are in a climate emergency and strengthens this year’s chorus of calls for urgent climate action — from schoolchildren to scientists, cities and countries.


The Intergovernmental Panel on Climate Change (IPCC) introduced the idea of tipping points two decades ago. At that time, these ‘large-scale discontinuities’ in the climate system were considered likely only if global warming exceeded 5 °C above pre-industrial levels. Information summarized in the two most recent IPCC Special Reports (published in 2018 and in September this year)2,3 suggests that tipping points could be exceeded even between 1 and 2 °C of warming (see ‘Too close for comfort’).



Source: IPCC


If current national pledges to reduce greenhouse-gas emissions are implemented — and that’s a big ‘if’ — they are likely to result in at least 3 °C of global warming. This is despite the goal of the 2015 Paris agreement to limit warming to well below 2 °C. Some economists, assuming that climate tipping points are of very low probability (even if they would be catastrophic), have suggested that 3 °C warming is optimal from a cost–benefit perspective. However, if tipping points are looking more likely, then the ‘optimal policy’ recommendation of simple cost–benefit climate-economy models4 aligns with those of the recent IPCC report2. In other words, warming must be limited to 1.5 °C. This requires an emergency response.



Ice collapse



We think that several cryosphere tipping points are dangerously close, but mitigating greenhouse-gas emissions could still slow down the inevitable accumulation of impacts and help us to adapt.


Research in the past decade has shown that the Amundsen Sea embayment of West Antarctica might have passed a tipping point3: the ‘grounding line’ where ice, ocean and bedrock meet is retreating irreversibly. A model study shows5 that when this sector collapses, it could destabilize the rest of the West Antarctic ice sheet like toppling dominoes — leading to about 3 metres of sea-level rise on a timescale of centuries to millennia. Palaeo-evidence shows that such widespread collapse of the West Antarctic ice sheet has occurred repeatedly in the past.


The latest data show that part of the East Antarctic ice sheet — the Wilkes Basin — might be similarly unstable3. Modelling work suggests that it could add another 3–4 m to sea level on timescales beyond a century.


The Greenland ice sheet is melting at an accelerating rate3. It could add a further 7 m to sea level over thousands of years if it passes a particular threshold. Beyond that, as the elevation of the ice sheet lowers, it melts further, exposing the surface to ever-warmer air. Models suggest that the Greenland ice sheet could be doomed at 1.5 °C of warming3, which could happen as soon as 2030.


Thus, we might already have committed future generations to living with sea-level rises of around 10 m over thousands of years3. But that timescale is still under our control. The rate of melting depends on the magnitude of warming above the tipping point. At 1.5 °C, it could take 10,000 years to unfold3; above 2 °C it could take less than 1,000 years6. Researchers need more observational data to establish whether ice sheets are reaching a tipping point, and require better models constrained by past and present data to resolve how soon and how fast the ice sheets could collapse.


Whatever those data show, action must be taken to slow sea-level rise. This will aid adaptation, including the eventual resettling of large, low-lying population centres.


A further key impetus to limit warming to 1.5 °C is that other tipping points could be triggered at low levels of global warming. The latest IPCC models projected a cluster of abrupt shifts7 between 1.5 °C and 2 °C, several of which involve sea ice. This ice is already shrinking rapidly in the Arctic, indicating that, at 2 °C of warming, the region has a 10–35% chance3 of becoming largely ice-free in summer.



Biosphere boundaries

Climate change and other human activities risk triggering biosphere tipping points across a range of ecosystems and scales (see ‘Raising the alarm’).




Source: T. M. Lenton et al.


Ocean heatwaves have led to mass coral bleaching and to the loss of half of the shallow-water corals on Australia’s Great Barrier Reef. A staggering 99% of tropical corals are projected2 to be lost if global average temperature rises by 2 °C, owing to interactions between warming, ocean acidification and pollution. This would represent a profound loss of marine biodiversity and human livelihoods.


As well as undermining our life-support system, biosphere tipping points can trigger abrupt carbon release back to the atmosphere. This can amplify climate change and reduce remaining emission budgets.


Deforestation and climate change are destabilizing the Amazon — the world’s largest rainforest, which is home to one in ten known species. Estimates of where an Amazon tipping point could lie range from 40% deforestation to just 20% forest-cover loss8. About 17% has been lost since 1970. The rate of deforestation varies with changes in policy. Finding the tipping point requires models that include deforestation and climate change as interacting drivers, and that incorporate fire and climate feedbacks as interacting tipping mechanisms across scales.


With the Arctic warming at least twice as quickly as the global average, the boreal forest in the subarctic is increasingly vulnerable. Already, warming has triggered large-scale insect disturbances and an increase in fires that have led to dieback of North American boreal forests, potentially turning some regions from a carbon sink to a carbon source9. Permafrost across the Arctic is beginning to irreversibly thaw and release carbon dioxide and methane — a greenhouse gas that is around 30 times more potent than CO2 over a 100-year period.


Researchers need to improve their understanding of these observed changes in major ecosystems, as well as where future tipping points might lie. Existing carbon stores and potential releases of CO2 and methane need better quantification.


The world’s remaining emissions budget for a 50:50 chance of staying within 1.5 °C of warming is only about 500 gigatonnes (Gt) of CO2. Permafrost emissions could take an estimated 20% (100 Gt CO2) off this budget10, and that’s without including methane from deep permafrost or undersea hydrates. If forests are close to tipping points, Amazon dieback could release another 90 Gt CO2 and boreal forests a further 110 Gt CO211. With global total CO2 emissions still at more than 40 Gt per year, the remaining budget could be all but erased already.




Bleached corals on a reef near the island of Moorea in French Polynesia in the South Pacific.Credit: Alexis Rosenfeld/Getty



Global cascade


In our view, the clearest emergency would be if we were approaching a global cascade of tipping points that led to a new, less habitable, ‘hothouse’ climate state11. Interactions could happen through ocean and atmospheric circulation or through feedbacks that increase greenhouse-gas levels and global temperature. Alternatively, strong cloud feedbacks could cause a global tipping point12,13.


We argue that cascading effects might be common. Research last year14 analysed 30 types of regime shift spanning physical climate and ecological systems, from collapse of the West Antarctic ice sheet to a switch from rainforest to savanna. This indicated that exceeding tipping points in one system can increase the risk of crossing them in others. Such links were found for 45% of possible interactions14.


In our view, examples are starting to be observed. For example, Arctic sea-ice loss is amplifying regional warming, and Arctic warming and Greenland melting are driving an influx of fresh water into the North Atlantic. This could have contributed to a 15% slowdown15 since the mid-twentieth century of the Atlantic Meridional Overturning Circulation (AMOC) , a key part of global heat and salt transport by the ocean3. Rapid melting of the Greenland ice sheet and further slowdown of the AMOC could destabilize the West African monsoon, triggering drought in Africa’s Sahel region. A slowdown in the AMOC could also dry the Amazon, disrupt the East Asian monsoon and cause heat to build up in the Southern Ocean, which could accelerate Antarctic ice loss.


The palaeo-record shows global tipping, such as the entry into ice-age cycles 2.6 million years ago and their switch in amplitude and frequency around one million years ago, which models are only just capable of simulating. Regional tipping occurred repeatedly within and at the end of the last ice age, between 80,000 and 10,000 years ago (the Dansgaard–Oeschger and Heinrich events). Although this is not directly applicable to the present interglacial period, it highlights that the Earth system has been unstable across multiple timescales before, under relatively weak forcing caused by changes in Earth’s orbit. Now we are strongly forcing the system, with atmospheric CO2 concentration and global temperature increasing at rates that are an order of magnitude higher than those during the most recent deglaciation.


Atmospheric CO2 is already at levels last seen around four million years ago, in the Pliocene epoch. It is rapidly heading towards levels last seen some 50 million years ago — in the Eocene — when temperatures were up to 14 °C higher than they were in pre-industrial times. It is challenging for climate models to simulate such past ‘hothouse’ Earth states. One possible explanation is that the models have been missing a key tipping point: a cloud-resolving model published this year suggests that the abrupt break-up of stratocumulus cloud above about 1,200 parts per million of CO2 could have resulted in roughly 8 °C of global warming12.


Some early results from the latest climate models — run for the IPCC’s sixth assessment report, due in 2021 — indicate a much larger climate sensitivity (defined as the temperature response to doubling of atmospheric CO2) than in previous models. Many more results are pending and further investigation is required, but to us, these preliminary results hint that a global tipping point is possible.


To address these issues, we need models that capture a richer suite of couplings and feedbacks in the Earth system, and we need more data — present and past — and better ways to use them. Improving the ability of models to capture known past abrupt climate changes and ‘hothouse’ climate states should increase confidence in their ability to forecast these.


Some scientists counter that the possibility of global tipping remains highly speculative. It is our position that, given its huge impact and irreversible nature, any serious risk assessment must consider the evidence, however limited our understanding might still be. To err on the side of danger is not a responsible option.


If damaging tipping cascades can occur and a global tipping point cannot be ruled out, then this is an existential threat to civilization. No amount of economic cost–benefit analysis is going to help us. We need to change our approach to the climate problem.


Act now


In our view, the evidence from tipping points alone suggests that we are in a state of planetary emergency: both the risk and urgency of the situation are acute (see ‘Emergency: do the maths’).


EMERGENCY: DO THE MATHS

We define emergency (E) as the product of risk and urgency. Risk (R) is defined by insurers as probability (p) multiplied by damage (D). Urgency (U) is defined in emergency situations as reaction time to an alert (τ) divided by the intervention time left to avoid a bad outcome (T). Thus:
E = R × U = p × D × τ / T
The situation is an emergency if both risk and urgency are high. If reaction time is longer than the intervention time left (τ / T > 1), we have lost control.

We argue that the intervention time left to prevent tipping could already have shrunk towards zero, whereas the reaction time to achieve net zero emissions is 30 years at best. Hence we might already have lost control of whether tipping happens. A saving grace is that the rate at which damage accumulates from tipping — and hence the risk posed — could still be under our control to some extent.


The stability and resilience of our planet is in peril. International action — not just words — must reflect this.


Monday, November 25, 2019

Climate Links November 2019 #2

Back in September, Grantham Research Institute on Climate Change and the Environment produced a report in collaboration with the Earth Institute of Columbia University and the Potsdam Institute for Climate Impact Research, called 

The missing economic risks in assessments of climate change impacts. Sept. 20, 2019.
PDF available.

An introductory article about it at Yale Climate Connections can be found here:

New report finds costs of climate change impacts often underestimatedDana Nuccitelli. Nov. 18, 2019.
It's difficult to accurately project the costs of climate change impacts because the rate and magnitude of climate change is unprecedented.  
"Climate economics researchers have often underestimated – sometimes badly underestimated – the costs of damages resulting from climate change. Those underestimates occur particularly in scenarios where Earth’s temperature warms beyond the Paris climate target of 1.5 to 2 degrees C (2.7 to 3.6 degrees F). 
That’s the conclusion of a new report written by a team of climate and Earth scientists and economists from the Earth Institute at Columbia University, the Potsdam Institute for Climate Impact Research, and the Grantham Research Institute on Climate Change and the Environment. It’s a conclusion consistent with the findings of numerous recent climate economics studies...."

Those are both more diplomatic / polite criticisms of the absurdity of most climate change economics, practiced by the likes of Tol and (recent Nobel-prize winner) Nordhaus.

But if you truly want to understand just how bad that state of affairs is, then you can do no better than reading Steve Keen.

Keen is a (heterodox) economist whom I have been following for well over a decade. He is, IMO, one of the rare economists who truly understands how credit and debt impact the economy, (e.g. Economists Ignore One of Capitalism’s Biggest Problems. Banks Create Money out of Nothing.)... and, as such, was one of the very rare economists that anticipated the '08/09 GFC (e.g. Steve Keen's Debtwatch, circa April 2007

He has in the past year turned his keen eye and sharp wit upon dissecting the state of cli.ch.econ. In fact, he has started collaborating with another researcher/analyst whose work I've come to very much respect, Tim Garrett, Prof of Atmospheric Sciences at Univ of Utah. Garrett has long been integrating a physics approach to the study of economies (e.g. here: Long-run global economic growth)

In any case, Keen has a much less subtle takedown of the inanity of Nordhaus's work (as representative of most work in the field of climate change economics), for which I've attached a PDF, and for which you can find more info here: Steve Keen on Nordhaus (Playing with DICE; Shocked Disbelief) and here: The Cost of Climate Change: A Nobel Economist’s Model Dismantled, and here: ‘4°C of global warming is optimal’ – even Nobel Prize winners are getting things catastrophically wrong.



The Collapse of Civilization May Have Already Begun. Nafeez Ahmed, vice. Nov. 22, 2019.
Scientists disagree on the timeline of collapse and whether it's imminent. But can we afford to be wrong? And what comes after?

Economics for the future – Beyond the superorganism. Nate Hagens. Science Direct.



WHAT TO EXPECT FROM THE UN’S COP 25 CLIMATE CHANGE CONFERENCE. Andrew Urevig, Ensia. Nov. 26, 2019.


The planet is burning. Stephen J Pyne, aeon. Nov. 20, 2019.
Wild, feral and fossil-fuelled, fire lights up the globe. Is it time to declare that humans have created a Pyrocene?

Climate Change Is Coming for Global Trade. Joseph Curtin, Foreign Policy. Nov. 16, 2019.
As sea levels rise and storms become fiercer, container shipping could be in for major disruptions

Global heating supercharging Indian Ocean climate system. Peter Beaumont and Graham Readfearn, Guardian. Nov. 19, 2019.


Climate change fueled the rise and demise of the Neo-Assyrian Empire, superpower of the ancient world. The Conversation. Nov. 13, 2019.
Climate change is here to stay. In the 21st century, people have what Neo-Assyrians did not: the benefit of hindsight and plenty of observational data. Unsustainable growth in politically volatile and water-stressed regions is a time-tested recipe for disaster.




https://twitter.com/tveitdal/status/1199615758285856768?s=09

Sunday, November 24, 2019

The Collapse of Civilization May Have Already Begun

The Collapse of Civilization May Have Already Begun. Nafeez Ahmed, vice. com. November 22, 2019. 

Scientists disagree on the timeline of collapse and whether it's imminent. But can we afford to be wrong? And what comes after?


“It is now too late to stop a future collapse of our societies because of climate change.”

These are not the words of a tinfoil hat-donning survivalist. This is from a paper delivered by a senior sustainability academic at a leading business school to the European Commission in Brussels, earlier this year. Before that, he delivered a similar message to a UN conference: “Climate change is now a planetary emergency posing an existential threat to humanity.”

In the age of climate chaos, the collapse of civilization has moved from being a fringe, taboo issue to a more mainstream concern.

As the world reels under each new outbreak of crisis—record heatwaves across the Western hemisphere, devastating fires across the Amazon rainforest, the slow-moving Hurricane Dorian, severe ice melting at the poles—the question of how bad things might get, and how soon, has become increasingly urgent.

The fear of collapse is evident in the framing of movements such as ‘Extinction Rebellion’ and in resounding warnings that business-as-usual means heading toward an uninhabitable planet.

But a growing number of experts not only point at the looming possibility that human civilization itself is at risk; some believe that the science shows it is already too late to prevent collapse. The outcome of the debate on this is obviously critical: it throws light on whether and how societies should adjust to this uncertain landscape.

Yet this is not just a scientific debate. It also raises difficult moral questions about what kind of action is warranted to prepare for, or attempt to avoid, the worst. Scientists may disagree about the timeline of collapse, but many argue that this is entirely beside the point. While scientists and politicians quibble over timelines and half measures, or how bad it'll all be, we are losing precious time. With the stakes being total collapse, some scientists are increasingly arguing that we should fundamentally change the structure of society just to be safe.

Jem Bendell, a former consultant to the United Nations and longtime Professor of Sustainability Leadership at the University of Cumbria’s Department of Business, delivered a paper in May 2019 explaining how people and communities might “adapt to climate-induced disruption.”

Bendell’s thesis is not only that societal collapse due to climate change is on its way, but that it is, in effect, already here. “Climate change will disrupt your way of life in your lifetimes,” he told the audience at a climate change conference organized by the European Commission.

Devastating consequences, like “the cascading effects of widespread and repeated harvest failures” are now unavoidable, Bendell’s paper says.

He argues this is not so much a doom-and-gloom scenario as a case of waking up to reality, so that we can do as much as we can to save as many lives as possible. His recommended response is what he calls “Deep Adaptation,” which requires going beyond “mere adjustments to our existing economic system and infrastructure, in order to prepare us for the breakdown or collapse of normal societal functions.

Bendell’s message has since gained a mass following and high-level attention. It is partly responsible for inspiring the new wave of climate protests reverberating around the world.

In March, he launched the Deep Adaptation Forum to connect and support people who, in the face of “inevitable” societal collapse, want to explore how they can “reduce suffering, while saving more of society and the natural world.” Over the last six months, the Forum has gathered more than 10,000 participants. More than 600,000 people have downloaded Bendell’s paper, called Deep Adaptation: A Map for Navigating our Climate Tragedy, published by the University of Cumbria’s Institute of Leadership and Sustainability (IFALS). And many of the key organizers behind the Extinction Rebellion (XR) campaign joined the protest movement after reading it.

“There will be a near-term collapse in society with serious ramifications for the lives of readers,” concludes that paper, released in 2017.

Catastrophe is “probable,” it adds, and extinction “is possible.” Over coming decades, we will see the escalating impacts of the fossil fuel pollution we have already pumped into the atmosphere and oceans. Even if we ceased emissions tomorrow, Bendell argues, the latest climate science shows that “we are now in a climate emergency, which will increasingly disrupt our way of life… a societal collapse is now inevitable within the lifetimes of readers of this paper.”

Bendell puts a rough timeline on this. Collapse will happen within 10 years and inflict disruptions across nations, involving “increased levels of malnutrition, starvation, disease, civil conflict, and war.”

Yet this diagnosis opens up far more questions than it answers. I was left wondering: Which societies are at risk of collapsing due to climate change, and when? Some societies or all societies? Simultaneously or sequentially? Why some rather than others? And how long will the collapse process take? Where will it start, and in what sector? How will that impact others sectors? Or will it take down all sectors of societies in one fell swoop? And what does any of this imply for whether, or how, we might prepare for collapse?

In attempting to answer these questions, I spoke to a wide-range of scientists and experts, and took a deep dive into the obscure but emerging science of how societies and civilizations collapse. I wanted to understand not just whether Bendell’s forecast was right, but to find out what a range experts from climate scientists to risk analysts were unearthing about the possibility of our societies collapsing in coming years and decades.

The emerging science of collapse is still, unfortunately, a nascent field. That's because it's an interdisciplinary science that encompasses not only the incredibly complex, interconnected natural systems that comprise the Earth System, but also has to make sense of how those systems interact with the complex, interconnected social, political, economic, and cultural systems of the Human System.

What I discovered provoked a wide range of emotions. I was at times surprised and shocked, often frightened, sometimes relieved. Mostly, I was unsettled. Many scientists exposed flaws in Bendell’s argument. Most rejected the idea of inevitable near-term collapse outright. But to figure out whether a near-term collapse scenario of some kind was likely led me far beyond Bendell. A number of world leading experts told me that such a scenario might, in fact, be far more plausible than conventionally presumed.


Science, gut, or a bit of both?

According to Penn State professor Michael Mann, one of the world’s most renowned climate scientists, Bendell’s grasp of the climate science is deeply flawed.

“To me, this paper is a perfect storm of misguidedness and wrongheadedness,” he told me.

Bendell’s original paper had been rejected for publication by the peer-reviewed Sustainability Accounting, Management and Policy Journal. According to Bendell, the changes that editorial reviewers said were necessary to make the article fit for publication made no sense. But among them, one referee questioned whether Bendell’s presentation of climate data actually supported his conclusion: “I am not sure that the extensive presentation of climate data supports the core argument of the paper in a meaningful way.”

In his response, sent in the form of a letter to the journal’s chief editor, Bendell wrote: “Yet the summary of science is the core of the paper as everything then flows from the conclusion of that analysis. Note that the science I summarise is about what is happening right now, rather than models or theories of complex adaptive systems which the reviewer would have preferred.”

But in Mann’s view, the paper’s failure to pass peer review was not simply because it didn’t fit outmoded academic etiquette, but for the far more serious reason that it lacks scientific rigor. Bendell, he said, is simply “wrong on the science and impacts: There is no credible evidence that we face ‘inevitable near-term collapse.’”

Dr. Gavin Schmidt, head of NASA’s Goddard Institute for Space Studies, who is also world-famous, was even more scathing.

“There are both valid points and unjustified statements throughout,” he told me about Bendell's paper. “Model projections have not underestimated temperature changes, not everything that is non-linear is therefore ‘out of control.’ Blaming ‘increased volatility from more energy in the atmosphere’ for anything is silly. The evidence for ‘inevitable societal collapse’ is very weak to non-existent.”

Schmidt did not rule out that we are likely to see more instances of local collapse events. “Obviously we have seen such collapses in specific locations associated with extreme storm impacts,” he said. He listed off a number of examples—Puerto Rico, Barbuda, Haiti, and New Orleans—explaining that while local collapses in certain regions could be possible, it's a "much harder case to make" at a global level. "And this paper doesn't make it. I’m not particularly sanguine about what is going to happen, but this is not based on anything real.”

Jeremy Lent, systems theorist and author of The Patterning Instinct: A Cultural History of Humanity’s Search for Meaning, argues that throughout Bendell’s paper he frequently slips between the terms “inevitable,” “probably,” and “likely.”

“If he chooses to go with his gut instinct and conclude collapse is inevitable, he has every right to do so,” Lent said, “but I believe it’s irresponsible to package this as a scientifically valid conclusion, and thereby criticize those who interpret the data otherwise as being in denial.”

When I pressed Bendell on this issue, he pushed back against the idea that he was putting forward a hard, scientifically-valid forecast, describing it as a “guess”: “I say in the original paper that I am only guessing at when social collapse will occur. I have said or written that every time I mention that time horizon.”

But why offer this guess at all? “The problem I have with the argument that I should not give a time horizon like 10 years is that not deciding on a time horizon acts as a psychological escape from facing our predicament. If we can push this problem out into 2040 or 2050, it somehow feels less pressing. Yet, look around. Already harvests are failing because of weather made worse by climate change.”

Bendell points out that such impacts are already damaging more vulnerable, poorer societies than our own. He says it is only a matter of time before they damage the normal functioning of “most countries in the world.”


Global food system failure

According to Dr. Wolfgang Knorr, Principal Investigator at Lund University’s Biodiversity and Ecosystem Services in a Changing Climate Program, the risk of near-term collapse should be taken far more seriously by climate scientists, given the fact that so much is unknown about climate tipping points: “I am not saying that Bendell is right or wrong. But the criticism of Bendell’s points focuses too much on the detail and in that way studiously tries to avoid the bigger picture. The available data points to the fact that some catastrophic climate change is inevitable."

Bendell argues that the main trigger for some sort of collapse—which he defines as “an uneven ending of our normal modes of sustenance, security, pleasure, identity, meaning, and hope”—will come from accelerating failures in the global food system.

We know that it is a distinct possibility that so-called multi-breadbasket failures (when major yield reductions take place simultaneously across agricultural areas producing staple crops like rice, wheat, or maize) can be triggered by climate change—and have already happened.

As shown by American physicist Dr. Yaneer Ban Yam and his team at the New England Complex Systems Institute, in the years preceding 2011, global food price spikes linked to climate breakdown played a role in triggering the ‘Arab Spring’ uprisings. And according to hydroclimatologist Dr. Peter Gleick, climate-induced drought amplified the impact of socio-political and economic mismanagement, inflicting agricultural failures in Syria. These drove mass migrations within the country, in turn laying the groundwork for sectarian tensions that spilled over into a protracted conflict.

In my own work, I found that the Syrian conflict was not just triggered by climate change, but a range of intersecting factors—Syria’s domestic crude oil production had peaked in the mid-90s, leading state revenues to hemorrhage as oil production and exports declined. When global climate chaos triggered food price spikes, the state had begun slashing domestic fuel and food subsidies, already reeling from the impact of economic mismanagement and corruption resulting in massive debt levels. And so, a large young population overwhelmed with unemployment and emboldened by decades of political repression took to the streets when they could not afford basic bread. Syria has since collapsed into ceaseless civil war.

This is a case of what Professor Thomas-Homer Dixon, University Research Chair in the University of Waterloo’s Faculty of Environment, describes as “synchronous failure”—when multiple, interconnected stressors amplify over time before triggering self-reinforcing feedback loops which result in them all failing at the same time. In his book, The Upside of Down: Catastrophe, Creativity and the Renewal of Civilization, he explains how the resulting convergence of crises overwhelms disparate political, economic and administrative functions, which are not designed for such complex events.

From this lens, climate-induced collapse has already happened, though it is exacerbated by and amplifies the failure of myriad human systems. Is Syria a case-study of what is in store for the world? And is it inevitable within the next decade?

In a major report released in August, the UN’s Intergovernmental Panel on Climate Change (IPCC) warned that hunger has already been rising worldwide due to climate impacts. A senior NASA scientist, Cynthia Rosenzweig, was a lead author of the study, which warned that the continued rise in carbon emissions would drive a rise in global average temperatures of 2°C in turn triggering a “very high” risk to food supplies toward mid-century. Food shortages would hit vulnerable, poorer regions, but affluent nations may also be in the firing line. As a new study from the UK Parliamentary Environment Audit Committee concludes, fruit and vegetable imports to countries like Britain might be cut short if a crisis breaks out.

When exactly such a crisis might happen is not clear. Neither reports suggest it would result in the collapse of civilization, or even most countries, within 10 years. And the UN also emphasizes that it is not too late to avert these risks through a shift to organic and agro-ecological methods.

NASA’s Gavin Schmidt acknowledged “increasing impacts from climate change on global food production,” but said that a collapse “is not predicted and certainly not inevitable.”


The catastrophic ‘do-nothing’ scenario

A few years ago, though, I discovered first-hand that a catastrophic collapse of the global food system is possible in coming decades if we don’t change course. At the time I was a visiting research fellow at Anglia Ruskin University’s Global Sustainability Institute, and I had been invited to a steering committee meeting for the Institute’s Global Research Observatory (GRO), a research program developing new models of global crisis.

One particular model, the Dawe Global Security Model, was focused on the risk of another global food crisis, similar to what triggered the Arab Spring.

“We ran the model forward to the year 2040, along a business-as-usual trajectory based on ‘do-nothing’ trends—that is, without any feedback loops that would change the underlying trend,” said institute director Aled Jones to the group of stakeholders in the room, which included UK government officials. “The results show that based on plausible climate trends, and a total failure to change course, the global food supply system would face catastrophic losses, and an unprecedented epidemic of food riots. In this scenario, global society essentially collapses as food production falls permanently short of consumption.”

Jones was at pains to clarify that this model-run could not be taken as a forecast, particularly as mitigation policies are already emerging in response to concern about such an outcome: “This scenario is based on simply running the model forward,” he said. “The model is a short-term model. It’s not designed to run this long, as in the real world trends are always likely to change, whether for better or worse.”

Someone asked, “Okay, but what you’re saying is that if there is no change in current trends, then this is the outcome?

“Yes,” Jones replied quietly.

The Dawe Global Security Model put this potential crisis two decades from now. Is it implausible that the scenario might happen much earlier? And if so why aren’t we preparing for this risk?

When I asked UN disaster risk advisor Scott Williams about a near-term global food crisis scenario, he pointed out that this year’s UN flagship global disaster risk assessment was very much aware of the danger of another global "multiple breadbasket failure."

“A projected increase in extreme climate events and an increasingly interdependent food supply system pose a threat to global food security,” warned the UN Global Assessment Report on Disaster Risk Reduction released in May. “For instance, local shocks can have far-reaching effects on global agricultural markets.”

Climate models we've been using are not too alarmist; they are consistently too conservative, and we have only recently understood how bad the situation really is.

Current agricultural modelling, the UN report said, does not sufficiently account for these complex interconnections. The report warns that “climate shocks and consequent crop failure in one of the global cereal breadbaskets might have knock-on effects on the global agricultural market. The turbulences are exacerbated if more than one of the main crop-producing regions suffers from losses simultaneously.”

Williams, who was a coordinating lead author of the UN global disaster risk assessment, put it more bluntly: “In a nutshell, Bendell is closer to the mark than his critics.”

He pointed me to the second chapter of the UN report which, he said, expressed the imminent risk to global civilization in a “necessarily politically desensitized” form. The chapter is “close to stating that ‘collapse is inevitable’ and that the methods that we—scientists, modellers, researchers, etc—are using are wholly inadequate to understand that nature of complex, uncertain ‘transitions,’ in other words, collapses.

Williams fell short of saying that such a collapse scenario was definitely unavoidable, and the UN report—while setting out an alarming level of risk—did not do so either. What they did make clear is that a major global food crisis could erupt unexpectedly, with climate change as a key trigger.


Climate tipping points

A new study by a team of scientists at Oxford, Bristol, and Austria concludes that our current carbon emissions trajectory hugely increases this risk. Published in October in the journal Agricultural Systems, the study warns that the rise in global average temperatures is increasing the likelihood of “production shocks” affecting an increasingly interconnected global food system.

Surpassing the 1.5 °C threshold could potentially trigger major “production losses” of millions of tonnes of maize, wheat and soybean.

Right now, carbon dioxide emissions are on track to dramatically increase this risk of multi-breadbasket failures. Last year, the IPCC found that unless we reduce our emissions levels by five times their current amount, we could hit 1.5°C as early as 2030, and no later than mid-century. This would dramatically increase the risk of simultaneous crop failures, food production shocks and other devastating climate impacts.

In April this year, the European Commission’s European Strategy and Policy Analysis System published its second major report to EU policymakers, Global Trends to 2030: Challenges and Choices for Europe. The report, which explores incoming national security, geopolitical and socio-economic risks, concluded: “An increase of 1.5 degrees is the maximum the planet can tolerate; should temperatures increase further beyond 2030, we will face even more droughts, floods, extreme heat and poverty for hundreds of millions of people; the likely demise of the most vulnerable populations—and at worst, the extinction of humankind altogether.”

But the IPCC’s newer models suggest that the situation is even worse than previously thought. Based on increased supercomputing power and sharper representations of weather systems, those new climate models—presented at a press conference in Paris in late September—reveal the latest findings of the IPCC’s sixth assessment report now underway.

The models now show that we are heading for 7°C by the end of the century if carbon emissions continue unabated, two degrees higher than last year’s models. This means the earth is far more sensitive to atmospheric carbon than previously believed.

This suggests that the climate models we've been using are not too alarmist; they are consistently too conservative, and we have only recently understood how bad the situation really is.

I spoke to Dr. Joelle Gergis, a lead author on the IPCC’s sixth assessment report, about the new climate models. Gergis admitted that at least eight of the new models being produced for the IPCC by scientists in the US, UK, Canada and France suggest a much higher climate sensitivity than older models of 5°C or warmer. But she pushed back against the idea that these findings prove the inevitability of collapse, which she criticized as outside the domain of climate science. Rather, the potential implications of the new evidence are not yet known.

“Yes, we are facing alarming rates of change and this raises the likelihood of abrupt, non-linear changes in the climate system that may cause tipping points in the Earth’s safe operating space,” she said. “But we honestly don’t know how far away we are from that just yet. It may also be the case that we can only detect that we’ve crossed such a threshold after the fact.”

In an article published in August in the Australian magazine The Monthly, Dr. Gergis wrote: “When these results were first released at a climate modelling workshop in March this year, a flurry of panicked emails from my IPCC colleagues flooded my inbox. What if the models are right? Has the Earth already crossed some kind of tipping point? Are we experiencing abrupt climate change right now?”

Half the Great Barrier Reef’s coral system has been wiped out at current global average temperatures which are now hovering around 1°C higher than pre-industrial levels. Gergis describes this as “catastrophic ecosystem collapse of the largest living organism on the planet.” At 1.5°C, between 70 and 90 percent of reef-building corals are projected to be destroyed, and at 2°C, some 99 percent may disappear: “An entire component of the Earth’s biosphere—our planetary life support system—would be eliminated. The knock-on effects on the 25 percent of all marine life that depends on coral reefs would be profound and immeasurable… The very foundation of human civilization is at stake.

But Gergis told me that despite the gravity of the new models, they do not prove conclusively that past emissions will definitely induce collapse within the next decade.

“While we are undeniably observing rapid and widespread climate change across the planet, there is no concrete evidence that suggests we are facing ‘an inevitable, near term society collapse due to climate change,’” she said. “Yes, we are absolutely hurtling towards conditions that will create major instabilities in the climate system, and time is running out, but I don’t believe it is a done deal just yet.”

Yet it is precisely the ongoing absence of strong global policy that poses the fatal threat. According to Lund University climate scientist Wolfgang Knorr, the new climate models mean that practically implementing the Paris Accords target of keeping temperatures at 1.5 degrees is now extremely difficult. He referred me to his new analysis of the challenge published on the University of Cumbria’s ILFAS blog, suggesting that the remaining emissions budget given by the IPCC “will be exhausted at the beginning of 2025.” He also noted that past investment in fossil-fuel and energy infrastructure alone will put us well over that budget. [MW: and recall the earlier point that new climate science has determined that earth climate sensitivity is greater than previously believed, so those carbon budget estimates were predicated on overly-optimistic assumptions... i.e. our remaining carbon budget to avoid +2C is quite likely to be closer to 0, given that GhGs in atmosphere are now higher than has been the case for millions of years]

The scale of the needed decarbonization is so great and so rapid, according to Tim Garrett, professor of atmospheric sciences at the University of Utah, that civilization would need to effectively “collapse” its energy consumption to avoid collapsing due to climate catastrophe. In a 2012 paper in Earth System Dynamics, he concluded therefore that “civilization may be in a double-bind.”

"We still have time to try and avert the scale of the disaster, but we must respond as we would in an emergency"

In a previous paper in Climatic Change, Garrett calculated that the world would need to switch to non-carbon renewable energy sources at a rate of about 2.1 percent a year just to stabilize emissions. “That comes out [equivalent] to almost one new nuclear power plant per day,” Garrett said. Although he sees this as fundamentally unrealistic, he concedes that a crash transition programme might help: “If society invests sufficient resources into alternative and new, non-carbon energy supplies, then perhaps it can continue growing without increasing global warming.”

Gergis goes further, insisting that it is not yet too late: “We still have time to try and avert the scale of the disaster, but we must respond as we would in an emergency. The question is, can we muster the best of our humanity in time?”

There is no straightforward answer to this question. To get there, we need to understand not just climate science, but the nature, dynamics, and causes of civilizational collapse.


Limits to Growth

One of the most famous scientific forecasts of collapse was conducted nearly 50 years ago by a team of scientists at MIT. Their "Limits to Growth" (LTG) model, known as "World3," captured the interplay between exponential population and economic growth, and the consumption of raw materials and natural resources. Climate change is an implicit feature of the model.

LTG implied that business-as-usual would lead to civilizational breakdown, sometime between the second decade and middle of the 21st century, due to overconsumption of natural resources far beyond their rate of renewal. This would escalate costs, diminish returns, and accelerate environmental waste, ecosystem damage, and global heating. With more capital diverted to the cost of extracting resources, less is left to invest in industry and other social goods, driving long-term economic decline and political unrest.

The forecast was widely derided when first published, and its core predictions were often wildly misrepresented by commentators who claimed it had incorrectly forecast the end of the world by the year 2000 (it didn’t).

Systems scientist Dennis Meadows had headed up the MIT team which developed the ‘World3’ model. Seven years ago, he updated the original model in light of new data with co-author Jorgen Randers, another original World3 team-member.

“For those who respect numbers, we can report that the highly aggregated scenarios of World3 still appear… to be surprisingly accurate,” they wrote in Limits to Growth: the 30 year update. “The world is evolving along a path that is consistent with the main features of the scenarios in LTG.”

One might be forgiven for suspecting that the old MIT team were just blowing their own horn. But a range of independent scientific reviews, some with the backing of various governments, have repeatedly confirmed that the LTG ‘base scenario’ of overshoot and collapse has continued to fit new data. This includes studies by Professor Tim Jackson of the University of Surrey, an economics advisor to the British government and Ministry of Defense; Australia’s federal government scientific research agency CSIRO; Melbourne University’s Sustainable Society Institute; and the Institute and Faculty of Actuaries in London.

“Collapse is not a very precise term. It is possible that there would be a general, drastic, uncontrolled decline in population, material use, and energy consumption by 2030 from climate change," Meadows told me when I asked him whether the LTG model shines any light on the risk of imminent collapse. "But I do not consider it to be a high probability event,” he said. Climate change would, however, “certainly suffice to alter our industrial society drastically by 2100.” It could take centuries or millennia for ecosystems to recover.

But there is a crucial implication of the LTG model that is often overlooked: what happens during collapse. During an actual breakdown, new and unexpected social dynamics might come into play which either worsen or even lessen collapse.

Those dynamics all depend on human choices. They could involve positive changes through reform in political leadership or negative changes such as regional or global wars.

That’s why modelling what happens during the onset of collapse is especially tricky, because the very process of collapse alters the dynamics of change.


Growth, complexity and resource crisis

What if, then, collapse is not necessarily the end? That’s the view of Ugo Bardi, of the University of Florence, who has developed perhaps the most intriguing new scientific framework for understanding collapse.

Earlier this year, Bardi and his team co-wrote a paper in the journal BioPhysical Economics and Resource Quality, drawing on the work of anthropologist Joseph Tainter at Utah State University’s Department of Environment and Society. Tainter’s seminal book, The Collapse of Complex Societies, concluded that societies collapse when their investments in social complexity reach a point of diminishing marginal returns.

Tainter studied the fall of the Western Roman empire, Mayan civilization, and Chaco civilization. As societies develop more complex and specialized bureaucracies to solve emerging problems, these new layers of problem-solving infrastructure generate new orders of problems. Further infrastructure is then developed to solve those problems, and the spiral of growth escalates.

As each new layer also requires a new ‘energy’ subsidy (greater consumption of resources), it eventually cannot produce enough resources to both sustain itself and resolve the problems generated. The result is that society collapses to a new equilibrium by shedding layers of complex infrastructure amassed in previous centuries. This descent takes between decades and centuries.

In his recent paper, Bardi used computer models to test how Tainter’s framework stood-up. He found that diminishing returns from complexity were not the main driver of a system’s decline; rather the decline in complexity of the system is due to diminishing returns from exploiting natural resources.

In other words, collapse is a result of a form of endless growth premised on the unsustainable consumption of resources, and the new order of increasingly unresolvable crises this generates.

In my view, we are already entering a perfect storm feedback loop of complex problems that existing systems are too brittle to solve. The collapse of Syria, triggered and amplified partly by climate crisis, did not end in Syria. Its reverberations have not only helped destabilize the wider Middle East, but contributed to the destabilization of Western democracies.

In January, a study in Global Environment Change found that the impact of “climatic conditions” on “drought severity” across the Middle East and North Africa amplified the “likelihood of armed conflict.” The study concluded that climate change therefore played a pivotal role in driving the mass asylum seeking between 2011 and 2015—including the million or so refugees who arrived in Europe in 2015 alone, nearly 50 percent of whom were Syrian. The upsurge of people fleeing the devastation of their homes was a gift to the far-right, exploited by British, French and other nationalists campaigning for the break-up of the European Union, as well as playing a role in Donald Trump’s political campaigning around The Wall.

To use my own terminology, Earth System Disruption (ESD) is driving Human System Destabilization (HSD). Preoccupied with the resulting political chaos, the Human System becomes even more vulnerable and incapable of ameliorating ESD. As ESD thus accelerates, it generates more HSD. The self-reinforcing cycle continues, and we find ourselves in an amplifying feedback loop of disruption and destabilization.


Beyond collapse

Is there a way out of this self-destructive amplifying feedback loop? Bardi’s work suggests there might be—that collapse can pave the way for a new, more viable form of civilization, whether or not countries and regions experience collapses, crises, droughts, famine, violence, and war as a result of ongoing climate chaos.

Bardi’s analysis of Tainter’s work extends the argument he first explored in his 2017 peer-reviewed study, The Seneca Effect: When Growth is Slow but Collapse is Rapid. The book is named after the Roman philosopher Lucius Annaeus Seneca, who once said that “fortune is of sluggish growth, but ruin is rapid.”

Bardi examines a wide-range of collapse cases across human societies (from the fall of past empires, to financial crises and large-scale famines), in nature (avalanches) and through artificial structures (cracks in metal objects). His verdict is that collapse is not a “bug,” but a “varied and ubiquitous phenomena” with multiple causes, unfolding differently, sometimes dangerously, sometimes not. Collapse also often paves the way for the emergence of new, evolutionary structures.

In an unpublished manuscript titled Before the Collapse: A Guide to the Other Side of Growth, due to be published by science publisher Springer-Nature next year, Bardi’s examination of the collapse and growth of human civilizations reveals that after collapse, a "Seneca Rebound" often takes place in which new societies grow, often at a rate faster than preceding growth rates.

This is because collapse eliminates outmoded, obsolete structures, paving the way for new structures to emerge which often thrive from the remnants of the old and in the new spaces that emerge.

He thus explains the Seneca Rebound as “as an engine that propels civilizations forward in bursts. If this is the case, can we expect a rebound if the world’s civilization goes through a new Seneca Collapse in the coming decades?”

Bardi recognizes that the odds are on a knife-edge. A Seneca Rebound after a coming collapse would probably have different features to what we have seen after past civilizational collapses and might still involve considerable violence, as past new civilizations often did—or may not happen at all.

On our current trajectory, he said, “the effects of the destruction we are wreaking on the ecosystem could cause humans to go extinct, the ultimate Seneca Collapse.” But if we change course, even if we do not avoid serious crises, we might lessen the blow of a potential collapse. In this scenario, “the coming collapse will be just one more of the series of previous collapses that affected human civilizations: it might lead to a new rebound.”

It is in this possibility that Bardi sees the seeds of a new, different kind of civilization within the collapse of civilization-as-we-know-it.

I asked Bardi how soon he thought this collapse would happen. Although emphasizing that collapse is not yet inevitable, he said that a collapse of some kind within the next decade could be “very likely” if business-as-usual continues.

Very little if anything is being done to stop emissions and the general destruction of the ecosystem,” Bardi said. “So, an ecosystemic collapse is not impossible within 10 years."

Yet he was also careful to point out that the worst might be avoided: “On the other hand, there are many elements interacting that may change things a little, a lot, or drastically. We don’t know how the system may react… maybe the system would react in a way that could postpone the worst.”


Release and renewal

The lesson is that even if collapse is imminent, all may not be lost. Systems theorist Jeremy Lent, author of The Patterning Instinct, draws on the work of the late University of Florida ecologist C. S. Holling, whose detailed study of natural ecosystems led him to formulate a general theory of social change known as the adaptive cycle.

Complex systems, whether in nature or in human societies, pass through four phases in their life cycle, writes Lent. First is a rapid growth phase of innovation and opportunity for new structures; second is a phase of stability and consolidation, during which these structures become brittle and resistant to change; third is a release phase consisting of breakdown, generating chaos and uncertainty; the fourth is reorganization, opening up the possibility that small, seemingly insignificant forces might drastically change the future of the forthcoming new cycle.

It is here, in the last two phases, that the possibility of triggering and shaping a Seneca Rebound becomes apparent. The increasing chaos of global politics, Lent suggests, is evidence that we are “entering the chaotic release phase,” where the old order begins to unravel. At this point, the system could either regress, or it could reorganize in a way that enables a new civilizational rebound. “This is a crucially important moment in the system’s life cycle for those who wish to change the predominant order.”

So as alarming as the mounting evidence of the risk of collapse is, it also indicates that we are moving into a genuinely new and indeterminate phase in the life cycle of our current civilization, during which we have a radical opportunity to mobilize the spread of new ideas that can transform societies.

I have been tracking the risks of collapse throughout my career as a journalist and systems theorist. I could not find any decisive confirmation that climate change will inevitably produce near-term societal collapse.

But the science does not rule this out as a possibility. Therefore, dismissing the risk of some sort of collapse—whether by end of century, mid-century, or within the next 10 years—contravenes the implications of the most robust scientific models we have.

All the scientific data available suggests that if we continue on our current course of resource exploitation, human civilization could begin experiencing collapse within coming decades. Exactly where and how such a collapse process might take off is not certain; and whether it is already locked in is as yet unknown. And as NASA’s Gavin Schmidt told me, local collapses are already underway.

From Syria to Brexit, the destabilizing socio-political impacts of ecosystemic collapse are becoming increasingly profound, far-reaching and intractable. In that sense, debating whether or not near-term collapse is inevitable overlooks the stark reality that we are already witnessing climate collapse.

And yet, there remains an almost total absence of meaningful conversation and action around this predicament, despite it being perhaps the most important issue of our times.

The upshot is that we don’t know for sure what is round the corner, and we need better conversations about how to respond to the range of possibilities. Preparation for worst-case scenarios does not require us to believe them inevitable, but vindicates the adoption of a rational, risk-based approach designed to proactively pursue the admirable goal for Deep Adaptation: safeguarding as much of society as possible.

Jem Bendell’s Deep Adaptation approach, he told me, is not meant to provide decisive answers about collapse, but to catalyze conversation and action.

“For the Deep Adaptation groups that I am involved with, we ask people to agree that societal collapse is either likely, inevitable or already unfolding, so that we can have meaningful engagement upon that premise,” he said. “Deep Adaptation has become an international movement now, with people mobilizing to share their grief, discuss what to commit to going forward, become activists, start growing food, all kinds of things.”

Confronting the specter of collapse, he insisted is not grounds to give-up, but to do more. Not later, but right now, because we are already out of time in terms of the harm already inflicted on the planet: “My active and radical hope is that we will do all kinds of amazing things to reduce harm, buy time and save what we can," he said. "Adaptation and mitigation are part of that agenda. I also know that many people will act in ways that create more suffering."

Most of all, the emerging science of collapse suggests that civilization in its current form, premised on endless growth and massive inequalities, is unlikely to survive this century. It will either evolve into or be succeeded by a new configuration, perhaps an “ecological civilization”, premised on a fundamentally new relationship with the Earth and all its inhabitants—or it will, whether slowly or more abruptly, regress and contract.

What happens next is still up to us. Our choices today will not merely write our own futures, they determine who we are, and what our descendants will be capable of becoming. As we look ahead, this strange new science hints to us at a momentous opportunity to become agents of change for an emerging paradigm of life and society that embraces, not exploits, the Earth.

Because doing so is now a matter of survival.

Thursday, November 21, 2019

War and Empire Links: November 2019 #2

... Which is just so crazy. That’s how low the bar has sunk for supporting the toppling of a government today. They don’t have to claim he’s starving his own people. They don’t have to claim that he’s using chemical weapons. They don’t have to claim that he’s governing without the consent of the voting populace. Just “Yeah well some of us don’t like him and there’s some paperwork we disagree on.”
... and now the US-approved interim president is an appalling racist and absolute dimwit who calls to mind a very low-budget Bolivian version of Sarah Palin.

Bolivia’s New Puppet Regime Wastes No Time Aligning With US Foreign Policy. CJ. Nov. 16, 2019.
... This news comes as no surprise to anyone who’s been paying attention. US foreign policy is essentially an endless war on disobedience, in which governments that refuse to bow to US interests are toppled by any means necessary and replaced by governments who will.
International affairs are much easier to understand once you stop thinking in terms of separate, sovereign nations and start thinking in terms of alliances and empire. What we are witnessing can best be described as a slow-motion third world war between what amounts to an unofficial globe-spanning empire centralized around the United States and its military on one side, and all the nations which have refused to be absorbed into this empire on the other. Nations which allow themselves to be absorbed are rewarded with the carrot of military and economic alliance with the empire, and nations which refuse are punished with the stick of invasions, sanctions, trade wars, and coups, with the ultimate goal being total unipolar global domination. 
Nothing takes precedence over this agenda of unipolar hegemony. As long as a nation remains loyal to the empire, it can fund terrorists, butcher Washington Post columnists, and create the worst humanitarian crisis in the world without fear of any retribution of any kind from the US-centralized empire. As a leaked State Department memo explained in 2017, so far as the empire is concerned human rights violations are nothing more than a strategic narrative control weapon with which to attack unabsorbed nations, and to be ignored when they are perpetrated by absorbed nations.
It should therefore also surprise no one that this same Washington-recognized government installed via US-backed military coup is now murdering demonstrators who object to it.
... 
 “Supporters of the coup in Bolivia can’t call it a coup,” US politician Lee Carter recently noted. “The US has a law preventing us from sending foreign aid to a new government if it was installed by a coup. So they come up with absurd claims that the military forcing Evo out somehow isn’t a coup.”
And the western mass media are falling right in line with the government forces in refusing to use this word, despite the ousting of a government by the military being exactly the thing that a coup is. This is because in a plutocracy, plutocrat-owned media is functionally the same as state media.

US Needs To Occupy Syria Because Of Kurds Or Iran Or Chemical Weapons Or Oil Or Whatever. CJ. Nov. 3, 2019.
We were told that the US must intervene in Syria because the Syrian government was massacring its people. We were told that the US must intervene in Syria in order to promote freedom and democracy in the Middle East. We were told that the US must intervene in Syria because Assad used chemical weapons. We were told that the US must occupy Syria to fight ISIS. We were told that the US must continue to occupy Syria to counter Iranian influence. We were told the US must continue to occupy Syria to protect the Kurds. Now the US must continue to occupy Syria because of oil.

These wildly different reasons the public has been given for America’s need to forcibly insert a military presence into Syria all have only one thing in common, and that’s America forcibly inserting a military presence into Syria. This is because they are not reasons, but excuses. The US forcibly inserted a military presence into Syria with the full intention of keeping it there, and then started diddling a bunch of completely different narratives in order to justify the thing it already wanted to do long before any of those excuses arose.

For eight years we’ve been spoon-fed an assortment of radically different narratives explaining why the US needs to control Syria militarily, and it turns out that the US and its allies have been plotting to control Syria since long before then. This is because Syria occupies an extremely geostrategically valuable location that is in no way limited to its oil fields. In 2004 Assad launched his “Five Seas Vision“, a plan to use Syria’s supreme location to place itself at the center of a regional energy and transportation system and become an economic superpower. The nation was then plunged into chaos seven years later, but whoever manages to secure control over this location will be able to achieve the same lucrative energy and transportation control for themselves. The dispute over pipeline routes that many have highlighted is just one small example of this. There’s also the illegally occupied Golan Heights which the extremely shady Genie Energy corporation has a vested interest in, and which provides a third of Israel’s water supply, and which the US has decided to officially regard as Israeli property.

So it’s a geostrategically crucial region, and it happens to have no interest at all in allowing itself to be absorbed into the blob of the US-centralized power alliance, allying itself instead with the unabsorbed nations of Russia and Iran. This has made it the epicenter of a giant global imperialist struggle the implications of which stretch far beyond its borders to the rest of the world.

This is the real reason why half a million Syrians have died in an imperialist proxy war, and why many more Syrians continue to suffer under US-led sanctions and the deprivation of their nation’s valuable natural resources. Not because of humanitarianism, not because of democracy, not because of chemical weapons, not because of ISIS, not because of Iran, not because of Kurds, and not even really just because of oil, but because there’s a globe-spanning oligarchic empire to which Syria has refused to submit. Everything else is empty narrative.

Whenever you see anyone arguing for keeping troops in Syria that aren’t there with the permission of the Syrian government, this is all they’re really supporting: a campaign to annex a strategically valuable location into the US-centralized empire. This is true regardless of whatever reason they are offering for that support. And notice how all the different reasons we’ve been inundated with all appeal to different political sectors: the oil and Iran narratives appeal to rank-and-file Republicans, the humanitarian arguments appeal to liberals, and the Kurds narrative appeals to many leftists and anarchists like Noam Chomsky. But the end result is always the same: keeping military force in a location that the empire has long sought to absorb.

By providing many different narratives as to why the military presence must continue, the propagandists get us all arguing over which narratives are the correct ones rather than whether or not there should be an illegal military occupation of a sovereign nation at all. This is just one of many examples of how the incredibly shrinking Overton window of acceptable debate is used to keep us arguing not over whether the empire should be doing evil things, but how and why it should do them them.

Don’t fall for it. It is not legitimate for the US empire to occupy Syria for any reason. At all. “Because oil” is not a legitimate reason. “Because Kurds” is not a legitimate reason. “Because ISIS” is not a legitimate reason. “Because Iran” is not a legitimate reason. “Because Russia” is not a legitimate reason. “Because freedom and democracy” is not a legitimate reason. “Because chemical weapons” is not a legitimate reason. And those who are driving this illegal occupation know it, which is why they keep shifting to whatever’s the most convenient narrative in any given moment.

Advancing Propaganda For Evil Agendas Is The Same As Perpetrating Them Yourself. CJ. Nov. 22, 2019.
You see this dynamic at play all too often from outlets, organizations and individuals who portray themselves as liberal, progressive, or in some way oppositional to authoritarianism. They happily advance propaganda narratives against governments and individuals targeted by establishment power structures, whether that’s Saddam Hussein, Gaddafi, Assad, Maduro, Morales, Assange or whomever, but when it comes time for that establishment to actually implement the evil agenda it’s been pushing for, they wash their hands of it and decry what’s being done as though they’ve always opposed it.
But they haven’t opposed it. They’ve actively facilitated it. If you help promote smears and propaganda against a target of the empire, then you’re just as culpable for what happens to that target as the empire itself. Because you actively participated in making it happen.


The Real Barack Obama Has Finally Revealed Himself. Luke Savage, Jacobin. Nov. 27, 2019.
Barack Obama is using his post-presidency to attack the Left and protect the status quo. The historical myth believed by so many liberals that Obama was a progressive leader who was hemmed in by the presidency's political constraints is collapsing fast.

...

As for that initial question of what Obama wants, the answer is that he’s told anyone willing to listen from the very beginning. Since 2016, his major concern has been to preserve a legacy whose progressive bona fides are increasingly threatened by the genuine radicalism of those to his left – and to use the vast power and influence at his disposal to stand in their way.


from Distinguishing Capitalism from Growth, by James Magnus-Johnston.