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Monday, April 29, 2019

Climate Links April 2019 (updated)

Canada in a Changing Climate. Environment and Climate Change Canada.



* extra links added April 29th *


Canada says global carbon pollution must be reduced to 'near zero' to limit harsh impacts. Carl Meyer, National Observer. Apr. 1, 2019.

Canada's failure to fight climate change 'disturbing,' environment watchdog says. Mia Rabson, National Observer. Apr. 3, 2019.

'This is a wake-up call:' swift action needed on rising seas, experts say. Michael Tutton, National Observer. Apr. 8, 2019.

Last time CO2 levels were this high, there were trees at the South Pole. Damian Carrington, Guardian. Apr. 3, 2019.
Trees growing near the South Pole, sea levels 20 metres higher than now, and global temperatures 3C-4C warmer. That is the world scientists are uncovering as they look back in time to when the planet last had as much carbon dioxide in the atmosphere as it does today.

CO2 Levels are now at a 3 million-year high. Olivia Rosane, EcoWatch. Apr. 5, 2019.
"Our results imply a strong sensitivity of the Earth system to relatively small variations in atmospheric CO2," Willeit said. "As fascinating as this is, it is also worrying."
referencing scientific research article:
Mid-Pleistocene transition in glacial cycles explained by declining CO2 and regolith removal. Willeit et al. Science Advances. Apr. 3, 2019.


Researchers Warn Arctic Has Entered 'Unprecedented State' That Threatens Global Climate Stability. EcoWatch. Apr. 8, 2019.
Also last month, as Common Dreams reported, the UN Environment Programme (ENUP) warned in a far-reaching report that winter temperatures in the Arctic are already "locked in" in such a way that significant sea level increases are now inevitable this century. 
Rising temperatures, along with ocean acidification, pollution, and thawing permafrost threaten the Arctic
referencing scientific research article:
Key Indicators of Arctic climate change: 1971- 2017. Jason Box et al, IOP Science. Apr. 8, 2019.


* Permafrost collapse is accelerating carbon release. Merritt R. Turetsky et al, Nature. Apr. 30, 2019.
The sudden collapse of thawing soils in the Arctic might double the warming from greenhouse gases released from tundra

* The Blue Ocean Event and Collapsing Ecosystems. Robert Hunziker, CounterPunch. Apr. 19, 2019.
Sometime in the near future it is highly probable that the Arctic will no longer have sea ice, meaning zero ice for the first time in eons, aka: the Blue Ocean Event. 
Surely, the world is not prepared for the consequences of such an historic event, which likely turns the world topsy-turvy, negatively impacting agriculture with gonzo weather patterns, thus forcing people to either starve or fight. But, the problem may be even bigger than shortages of food, as shall be discussed....

* The transpolar drift is faltering—sea ice is now melting before it can leave the nursery. Alfred Wegener Institute, Phys.org. Apr. 3, 2019.
According to the researchers, this development not only takes the planet one step closer to an ice-free summer in the Arctic; as the sea ice dwindles, the Arctic Ocean stands to lose an important means of transporting nutrients, algae and sediments.

Emissions from thawing Arctic permafrost may be 12 times higher than thought, scientists say. Chiara Giordano, Independent. Apr. 17, 2019.
Emissions from thawing Arctic permafrost may be 12 times higher than previously thought, scientists have discovered. 
Permafrost is a mix of soil, rock or sediment that has been frozen for at least two years which is mostly found in the uppermost areas where temperatures are rising more quickly than the rest of the world. 
When it thaws because of global warming, it releases large quantities of carbon dioxide and methane into the atmosphere, causing temperatures to rise and creating a perpetual cycle where more permafrost melts

Protecting marine life could be key in fighting climate change as sea creatures trap and store carbon in the ocean, researcher says. Heidi Pearson, Daily Mail. Apr. 19, 2019.
  • Ocean is Earth’s largest carbon sink and central element of planet’s climate cycle
  • Large animals such as whales can store large quantities of carbon for long time
  • Others such as otters promote kelp growth, and kelp forests store carbon
  • But, expert warns no policy has been created to protect carbon storage in ocean
As the prospect of catastrophic effects from climate change becomes increasingly likely, a search is on for innovative ways to reduce the risks.  
One potentially powerful and low-cost strategy is to recognize and protect natural carbon sinks – places and processes that store carbon, keeping it out of Earth’s atmosphere. Forests and wetlands can capture and store large quantities of carbon. These ecosystems are included in climate change adaptation and mitigation strategies that 28 countries have pledged to adopt to fulfill the Paris Climate Agreement. So far, however, no such policy has been created to protect carbon storage in the ocean, which is Earth’s largest carbon sink and a central element of our planet’s climate cycle.

‘Death by a thousand cuts’: vast expanse of rainforest lost in 2018. Damian Carrington, Guardian. Apr. 25, 2019.
Millions of hectares of pristine tropical rainforest were destroyed in 2018, according to satellite analysis, with beef, chocolate and palm oil among the main causes. 
The forests store huge amounts of carbon and are teeming with wildlife, making their protection critical to stopping runaway climate change and halting a sixth mass extinction. But deforestation is still on an upward trend, the researchers said. 

Climate change being fuelled by soil damage - report. Roger Harrabin, BBC. Apr. 29, 2019.
There's three times more carbon in the soil than in the atmosphere – but that carbon's being released by deforestation and poor farming. 
This is fueling climate change – and compromising our attempts to feed a growing world population, the authors will say. 
Problems include soils being eroded, compacted by machinery, built over, or harmed by over-watering. 
Hurting the soil affects the climate in two ways: it compromises the growth of plants taking in carbon from the atmosphere, and it releases soil carbon previously stored by worms taking leaf matter underground. 
The warning will come from the awkwardly-named IPBES – the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services - a panel studying the benefits of nature to humans.
... 
"The thin layer of soil covering the Earth's surface represents the difference between survival and extinction for most terrestrial life. "Only 3% of the planet's surface is suitable for arable production and 75 billion tonnes of fertile soil is lost to land degradation every year."

Up to a million species face extinction, many within decades, according to the draft UN report. Marlowe Hood, AFP. Apr. 29, 2019.


'Catastrophic' decline threatening the Earth. Stephanie Bedo, NZHerald. Apr. 21, 2019.
A global scientific review of insect decline has warned insects will "go down the path of extinction" in a few decades, with "catastrophic" repercussions for the planet's ecosystems. The biodiversity crisis is said to be even deeper than that of climate change.

Rapidly declining remarkability of temperature anomalies may obscure public perception of climate change. Frances Moore et al, PNAS. March 12, 2019.
Climate change exposes people to conditions that are historically unusual but that will become increasingly common over time. What kind of weather do people think of as normal or unusual under these changing conditions? We use the volume of social media posts about weather to measure the remarkability of different temperatures and show that remarkability changes rapidly with repeated exposure to unusual temperatures. The reference point for normal conditions appears to be based on weather experienced between 2 and 8 y ago. This rapidly shifting normal baseline means warming noticed by the general public may not be clearly distinguishable from zero over the 21st century, with potential implications for both the acceptance of global warming and public pressure for mitigation policies.

* The Problem With Putting A Price on the End of the World. David Leonhardt, NYT Mag. April 9, 2019.
Economists [think they] have workable policy ideas for addressing climate change. But what if they’re politically impossible?
... 
“We have a climate problem,” Nordhaus said, “because markets fail, and fail badly, in the energy sector.” The only solution, he argued, was for governments to raise the price of emissions.

* The insanity of global trade. Roar. March 30, 2019.


Global Climate Coalition: Documents Reveal How Secretive Fossil Fuel Lobby Group Manipulated UN Climate Programs. Matt Hope via naked capitalism. Apr. 25, 2019.
A fossil fuel–backed industry group was able to influence the process behind the United Nations climate assessments for decades, using lobbyists and industry-funded scientists to manipulate international negotiations, a cache of recently discovered documents reveals.

* A Future Without Fossil Fuels? Bill McKibben, NYRB. April 4, 2019.
2020 Vision: Why You Should See the Fossil Fuel Peak Cominga report by Kingsmill Bond (41 pp., September 2018) 
A New World: The Geopolitics of the Energy Transformationa report by the Global Commission on the Geopolitics of Energy Transformation (88 pp., January 2019)

REVEALED: The five ways the human race could be WIPED OUT because of global warming. Rod Ardehali, Daily Mail. Apr. 10, 2019.

  • The deadly possible effects of global warming have been laid bare in a new book that reveals how disease, starvation and rising tides could kill off human beings 
  • 'FALTER: Has the Human Game Begun to Play Itself Out?' lists the lethal, and unexpected, ways that humans could become extinct - within a few generations
  • Melting ice caps could bring back disease locked in permafrost - killing swathes 
  • Natural disasters could be triggered by collapsing ice caps - with 65ft waves wiping out any coastal life in its path - repeating what happened 8,000 years ago
  • Cereal crops - the cornerstone of human sustenance - could dry out because of global warming with plants unable to grow in parched new lands
  • Author Bill McKibben's doomsday book asks whether we are already too late 

* Climate research needs to change to help communities plan for the future. Robert Kopp, The Conversation. April 5, 2019.
This reality means society needs to think about climate change in different ways than the past, by focusing on reducing the risk of negative effects. And speaking as a climate scientist, I recognize that climate science research, too, has to change. 
Historically, climate science has been primarily curiosity-driven – scientists seeking fundamental understanding of the way our planet works because of the inherent interest in the problem. 
Now it’s time for the climate science research enterprise to adopt an expanded approach, one that focuses heavily on integrating fundamental science inquiry with risk management.


Looking past the horizon of 2100. Sonja van Jenssen, Nature Climate Change. Apr. 26, 2019.
Long-term climate dynamics and impacts from sea level rise to heat stress make the case for much stronger mitigation efforts today
A chat with Paul Hawken about his ambitious effort to “map, measure, and model” global warming solutions.

Condensed Summary of Canada's Changing Climate Report





 Here’s what’s happening .. temperatures are climbing, globally


This chart shows temp relative to the 1961-1990 average

So, as you can see, the period from 1850-1900 was well below 1961-90, while 1990-2018 are well above

On net, we are very much well in excess of pre-industrial temperature norms (which is important because the global goals is to keep the planet from being destabilized by keeping temp increase contained to no more than 2C above pre-industrial, and preferrably 1.5C)

Those temp changes are manifesting themselves in other ways


And these other impacts will themselves in turn have a feedback effect on temperatures, creating a vicious circle


So far, that just covers what has happened so far… here’s what we’re looking at for the future
This shows just two possible scenarios, business as usual, what IPCC calls RCP8.5, and something that many would consider a best case, RCP2.6




Note how on the path we are on, which means continued economic growth, which means more consumption of everything, and more use of energy, which so far is predominantly fossil-fuels, CO2 concentrations in the atmosphere will rise not just linearly but exponentially; on the other hand, in order for us to achieve that best-case 2.6 scenario we just mentioned, you can see that rather than having emissions keep growing, we need to have them quickly plateau and head to zero, and, in fact, below zero (meaning we utilize new technologies to extract more carbon from the atmosphere than we put in)





Some people think, hey, we live in Canada, its cold, no big deal if it gets warmer

Except, for one thing, temperatures are rising further and faster here in Canada than globally, and especially up north in the Arctic

Canada is warming at twice the global rate, and the Arctic at thrice the global rate.. that is hugely destabilizing

So while it might seem okay in southern Ontario, we need to worry about those feedback effects we mentioned earlier… as the Arctic warms, not only are polar bears and other wildlife at risk, but less snow and ice means less albedo effect, and warming tundra means melting permafrost, which releases methane, a very potent GhG into the atmosphere, both from land and from the seabeds, which will cause a huge feedback effect, and greatly accentuate warming, to the extent that it can spiral out of control (Hothouse Earth scenario)



Here’s what climate models, as of the 2013 IPCC report, say will happen to global temperatures as we continue to emit emissions

2 things to note about that:
  • these are the projected global avg changes, and, as we just saw, Canada will warm twice as much and the Arctic thrice as much
  • global climate change models have improved in the last 6 years, and the latest estimates suggest the climate is even more sensitive than we previously thought, so temperatures will rise even further and faster than is shown here




Note that the majority of climate scientists consider it unlikely that we will fall below the low ranges of the above estimates, but remain concerned that we could exceed the high ranges (which already allow for 25% chance of being exceeded).. but could be worse due to feedback effects, tipping points and irreversibilities in the climate system



If we see these types of temperature changes in the 8.5 scenario, imagine the impacts related to:

·         hot and cold extremes
o    i.e. greater weather variability than we’ve experienced this year
·         extreme weather events,
o    causing flooding on the one hand, and
o    droughts on the other
·         and related knock-on effects on
o    groundwater and freshwater availability
o    our agricultural sector, our growing season, etc.
·         wildfires
·         ocean temperature and ocean acidification
o    and impacts on fisheries
·         sea level rise
o    storm surges for our coastal infrastructure / cities



Uncertainties prevail! Keep in mind that most estimates we see from models are based on chances / estimates

There are still significant risks of things being worse than we currently judge (and over the last 30 years, that has typically been the case, that outcomes have been generally worse than earlier anticipated)

Which raises the question of whether we want to accept a 50% or 25% or even 10% chance of temperatures getting even higher





War and Empire Links April 2019.

How the U.S. Creates 'Sh*thole' Countries: A Review. Danny Haiphong, Black Agenda Report. March 20, 2019.
Dr. Cynthia McKinney is the editor of "How the US Creates Shithole Countries"
Cynthia McKinney has been on the frontlines of the struggle for global peace for decades. Known first as a dissenting voice in Congress and then for her work in exposing the truth about the U.S.-led wars on the Palestinian, Libyan, and Black people here in the United States, McKinney’s voice is seldom heard in the arena of corporate politics. She has long understood that one of the most critical tasks of this historical juncture is the mobilization of the masses to stop the endless wars waged by U.S. Empire. In a series of essays written by activists, scholars, and analysts from across the political spectrum, McKinney shows through practice what this should look like. Her new book How the U.S. Creates ‘Sh*thole’ Countries is an invaluable piece of literature that seeks to transform anti-war ideas into an anti-war movement. 
The book challenges the liberal ethos that Trump’s vulgar “sh*thole” comments in January of 2018 were some aberration or detached from reality. Liberal elites work hard to erase the realities of racism and war by claiming the moral high ground of respectability politics. Their criticisms of Trump center around his foul language to distract from the role that they play in the creation of “sh*thole” countries. McKinney and the rest of the authors condemn Trump for characterizing Haiti and African nations such as Nigeria as “sh*tholes while attempting to answer a question that neither racist demagogues nor liberal elites dare to ask: What exactly causes the massive suffering experienced around the world?

Who Are the Real Terrorists in the Middle East? Maj. Danny Sjursen, TruthDig. Apr. 18, 2019.


The Obvious Dirty Dealings Behind Julian Assange’s Arrest. Kit Knightly, Off Guardian. Apr. 13, 2019.

The Prosecution Of Julian Assange Is Infinitely Bigger Than Assange. Caitlin Johnstone. Apr. 22, 2019.


Mueller, Trump, and 'two years of bullshit'. Byron York, Washington Examiner. Apr. 18, 2019.

Robert Mueller Did Not Merely Reject the Trump-Russia Conspiracy Theories. He Obliterated Them. Glenn Greenwald, The Intercept. Apr. 18, 2019.

Russiagate is Dead! Long Live Russiagate! Gerald Sussman, CounterPunch. Apr. 18, 2019.
Now that Mueller’s $40 million Humpty Trumpty investigation is over and found wanting of its original purpose (to retire Trump), perhaps the ruling class can return without interruption to the business of destroying the world with ordnance, greenhouse gases, and regime changes. A few more CIA-organized blackouts in Venezuela (it’s a simple trick if one follows the Agency’s “Freedom Fighter’s Manual”), and the US will come to the rescue, Grenada style, and set up yet another neoliberal regime. There is a small solace that with Trump, Pompeo, and Bolton, there is at least a semblance of transparency in their reckless interventions. The assessed value of Guaido and Salman, they forthrightly admit, is in their countries’ oil reserves. And Russians better respect the Monroe Doctrine and manifest destiny if they know what’s good for them. Crude as they may be, Trump’s men tell it like it is. And when Bolton speaks of “the Western Hemisphere’s shared goals of democracy, security, and the rule of law,” he is of course referring to US-backed coups, military juntas, debt bondage, invasions, embargoes, assassinations, and other forms of gunboat diplomacy. 
... 
Although the US corporate media may have missed the news, the rest of the world gets the fact that the greatest threat to peace on the planet is Uncle Sam. 

Present at the Death. John Michael Greer, Ecosophia. May 1, 2019.
Well, the penny finally dropped.  I’m not sure why it took me this long to realize that the collective tantrum that’s seized America’s mass media, intelligentsia, and privileged classes generally for the last two and a half years, since the election of Donald Trump to the presidency, was described right down to the small details back in the 1970s by pioneering grief researcher Elisabeth Kübler-Ross. Granted, she was talking about the five psychological stages that people go through when coming to terms with the reality of a terminal illness, but it makes an accurate model for what we may as well call the five stages of Donald Trump.

Journalists Matt Taibbi and Aaron Mate explain how the Russiagate narrative helped Trump. Katie Halper, Truthdig / Alternet. March 31, 2019.


Russiagate: “Why did this ever start in the first place?” van Buren, WeMeantWell. March 30, 2019.


Putin Derangement Syndrome After Mueller. Patrick Armstrong, Strategic Culture Foundation. Apr. 9, 2019.
Clinton’s victory was 99% certain until it wasn’t and excuses were needed. Clinton went through a lot of them but “Russian interference” was always the big one. 
That strategy had been set within twenty-four hours of her concession speech. [9 November 2016] Mook and Podesta assembled her communications team at the Brooklyn headquarters to engineer the case that the election wasn’t entirely on the up-and-up. For a couple of hours, with Shake Shack containers littering the room, they went over the script they would pitch to the press and the public. Already, Russian hacking was the centerpiece of the argument. (From Shattered, quoted here.)
... 
(For those who now realise there is something they have to catch up on: Conrad Black has a good exposition of the overall conspiracy and here is a quick round-up of the mechanics of the conspiracy. This may show its very beginning, three years ago).

The Real ‘Bombshells’ Are About to Hit Their Targets. Julie Kelly, AG. April 29th, 2019.
The next bombshell report to drop from the Justice Department likely will earn none of the breathless fanfare and media coverage that Special Counsel Robert Mueller’s report received, but it could be far more incriminating. 
In the next several weeks, Inspector General Michael Horowitz is expected to issue his summation of the potential abuse of the Foreign Intelligence Surveillance Act by top officials in the Obama Administration and holdovers in the early Trump Administration who were overseeing the investigation of Donald Trump’s presidential campaign.

And the perpetrators of the so-called FISAgate scandal now are scrambling for cover as the bad news looms.

Will the Mueller Report Make the New Cold War Even Worse? Stephen Cohen, The Nation. Apr. 17, 2019.
How the long-anticipated report addresses—or ignores—Russiagate allegations will be vital for US-Russian relations.

Obstructiongate! CJ Hopkins, OffGuardian. Apr. 26, 2019.
 I owe the corporate media an apology. For the last few years, I’ve been writing all these essays explaining how they were perpetrating an enormous psyop on the American public... a psyop designed to convince the public that Donald Trump “colluded” with Russia to steal the presidency from Hillary Clinton. Up until a few days ago, I would have sworn that they had published literally thousands of articles and editorials, and broadcast countless TV segments, more or less accusing him of treason, and being a “Russian intelligence asset,” and other ridiculous stuff like that. 
Also, and I’m still not sure how this happened, I somehow got the idea in my head that the investigation that Special Counsel Robert Mueller was meticulously conducting had something to do with Donald Trump conspiring or “colluding” with Russia, or being some kind of “Manchurian president,” or being blackmailed by Putin with a pee-tape, or something. 
In any event, the publication of the Mueller report has cleared things up for me. I get it now. The investigation was never about Trump colluding with Russia. It was always about Trump obstructing the investigation of the collusion with Russia that the investigation was not about. Mueller was never looking for collusion. It was not his job to look for collusion. His job was to look for obstruction of his investigation of alleged obstruction of his investigation of non-collusion, which he found, and detailed at length in his report, and which qualifies as an impeachable offense.

Not that he proved that there was no collusion! On the contrary, as professional hermeneuticists have been repeatedly pointing out on Twitter, given that Mueller wasn’t looking for collusion, and that collusion could never have been legally established, and isn’t even a legal term, Mueller’s failure to find any actual evidence of collusion is evidence of collusion, notwithstanding the fact that he couldn’t prove it, and wasn’t even looking for it, except to the extent it allowed him to establish a case for the obstruction he was actually investigating. 
In other words, his investigation was launched in order to investigate the obstruction of his investigation. And, on those terms, it was a huge success. The fact that it didn’t prove “collusion” means nothing — that’s just a straw man argument that Trump and his Russian handlers make. The goal all along was to prove that Trump obstructed an investigation of his obstruction of that investigation, not that he was “colluding” with Putin, or any of the other paranoid nonsense that the corporate media were forced to report on, once an investigation into his obstruction of the investigation was launched. 
See, and this is why I owe the media an apology. All those thousands of hysterical articles, editorials, and TV segments accusing Donald Trump of treason, and of literally being a Russian agent, and probably Putin’s homosexual lover, were not just ridiculous propaganda. The corporate media were not engaged in a concerted campaign to convince the public that Trump conspired with a foreign adversary to brainwash millions of African Americans into refusing to vote for Hillary Clinton with some emails and a handful of Facebook posts. No, the media were simply covering the story of his obstruction of the investigation of the made-up facts the intelligence agencies got them to relentlessly disseminate to generate the appearance of a story, which, once it was out there, had to be reported on, regardless of how it came into being, or whose nefarious purposes it served. 
Moreover, regardless of whether Mueller did or did not establish obstruction (or attempted obstruction, which is just as impeachable) of his non-investigation of collusion, he absolutely established that Russia attacked us by brainwashing all those African Americans who were definitely going to vote for Clinton until they saw those divisive Facebook ads and those DNC emails that Putin personally ordered Trump to order Paul Manafort to personally deliver to Julian Assange, who was hunkered down in the Ecuadorean embassy poking holes in King-size condoms, abusing his cat, and smearing invisible poo all over the walls of his kitchen. 
Now, these are all indisputable facts, which Mueller establishes in his report by referencing the repeated assertions of a consensus of U.S. intelligence agencies, and the corporate media’s relentless repetition of those agencies’ assertions, and the feeling a lot of people have that they must be factual to some extent, given how often they have been repeated, and referenced, and authoritatively asserted, and how familiar they sound when they hear them, again. The fact that there exists no evidence whatsoever of any “Russian attack,” and that all we’re actually talking about is the publication of a bunch of emails that DNC members actually wrote, and some ridiculous social media posts, should not in any way detract from the fact that the Russians launched a totally devastating, virtually Pearl Harbor-scale attack on the fabric of American democracy, which Trump obstructed an investigation of, or attempted to obstruct an investigation of, or conspired to attempt to obstruct an investigation of obstruction of. 
Or whatever. The point is, now they’ve got him! His justice obstructing days are numbered! Break out the pussyhats and vuvuzelas, because next stop is Impeachment City! So what if he’s not a Russian agent and didn’t conspire or collude with anyone? He got elected without permission, and insulted a lot of powerful people, and … well, who cares what they impeach him for, as long as they impeach him for something!

They kind of have to do it, at this point, don’t they? They just spent most of the last three years rolling out an official narrative in which the Russians are running around attacking democracy, poisoning ducks with Novichok perfume, fomenting populist uprisings in France, and just generally being the evil enemies that the Islamic terrorists used to be, before they turned into freedom fighters and helped us try to take over Syria. 
If the Democrats don’t impeach Donald Trump, that official narrative might fall apart. Liberals might have to face the fact that Americans elected Donald Trump president, not because they were brainwashed by Russians, or had any illusions about what a thuggish, self-aggrandizing buffoon he is, but because they were so disgusted with the neoliberal Washington establishment, and the global capitalist elites that own it, that they leapt at the chance to vote against it, and probably would have elected anyone who promised to even marginally disrupt it … but there I go drifting off into my crazy conspiracist thinking again. 
Anyway … I’m really sorry about all that stuff I wrote about the corporate media. Rest assured, that won’t happen again. Admittedly, I blew the Russiagate thing, but I promise to do better with Obstructiongate, or Tax-Returnsgate, or Whatevergate. 
It doesn’t really matter what we call it, right? 
The important thing is to teach the masses what happens when they vote for unauthorized candidates. We’re only halfway through that lesson. Stay tuned … there’s much, much more to come!

A Satirical Russiagate Requiem. CJ Hopkins via zerohedge. Apr. 2, 2019.
So the Mueller report is finally in, and it appears that hundreds of millions of Americans have, once again, been woefully bamboozled. Weird, how this just keeps on happening. At this point, Americans have to be the most frequently woefully bamboozled people in the entire history of woeful bamboozlement. 
If you didn’t know better, you’d think we were all a bunch of hopelessly credulous imbeciles that you could con into believing almost anything, or that our brains had been bombarded with so much propaganda from the time we were born that we couldn’t really even think anymore.

That’s right, as I’m sure you’re aware by now, it turns out President Donald Trump, a pompous former reality TV star who can barely string three sentences together without totally losing his train of thought and barking like an elephant seal, is not, in fact, a secret agent conspiring with the Russian intelligence services to destroy the fabric of Western democracy. After two long years of bug-eyed hysteria, Inspector Mueller came up with squat. Zip. Zero. Nichts. Nada. Or, all right, he indicted a bunch of Russians that will never see the inside of a courtroom, and a few of Trump’s professional sleazebags for lying and assorted other sleazebag activities (so I guess that was worth the $25 million of taxpayers’ money that was spent on this circus). 
Notwithstanding those historic accomplishments, the entire Mueller investigation now appears to have been another wild goose chase (like the “search” for those non-existent WMDs that we invaded and destabilized the Middle East and murdered hundreds of thousands of people pretending to conduct in 2003). Paranoid collusion-obsessives will continue to obsess about redactions and cover-ups, but the long and short of the matter is, there will be no perp walks for any of the Trumps. No treason tribunals. No televised hangings. No detachment of Secret Service agents marching Hillary into the White House. 
The jig, as they say, is up. 
But let’s try to look on the bright side, shall we? 
Disgraceful as this Russiagate fiasco has been, at least it was all just an honest mistake, and not any kind of plot, or conspiracy, or anything as disturbing as that. It’s not like the majority of the corporate media perpetrated a massive, coordinated, intelligence agency-initiated psyop on the Western public for two and half years. No, they just “got it wrong,” again … like they did with those Iraqi WMDs. 
The corporate media, after all, are comprised of dedicated, professional journalists, who maintain the highest ethical standards, and who would never knowingly bombard the masses with hysterical McCarthyite propaganda based on absolutely nothing but the word of a bunch of deep state types who were trying to force a president out of office and delegitimize a populist backlash against the spread of global neoliberalism. 
Plus, there is no “deep state.” Not really. That’s just one of those right-wing conspiracy theories that only Trump-loving fascists believe in.

I mean, it’s not as if elements of the FBI, the DOJ, and the DNC paid a former MI6 spook working for a Washington PR firm contracted by a Washington law firm contracted by the Clinton campaign to fabricate a “dossier” alleging that “the Russian regime [sic] has been cultivating, supporting, and assisting Trump for at least five years” in order “to sow discord” within the Transatlantic Alliance, and then fed that fabricated dossier to their contacts in the corporate media, who used it to generate mass hysteria, which the Congress then used to justify the appointment of a special prosecutor, whose investigation of the allegations contained in the fabricated dossier the corporate media and deep state types used to generate even more mass hysteria … and so on, until hundreds of millions of people actually believed that Donald Trump was some kind of Russian intelligence asset, and was going to be impeached and tried for treason. 
Now, that would be scary, if that had happened! 
Another thing that (thank Christ!) didn’t happen was when the corporate media hired a bunch of ex-intelligence agency officials to appear on their “news” shows every other night disseminating Russiagate propaganda while at the same time effectively banning journalists with dissenting views from challenging their lies. Well, and OK, to the degree they did that (and they certainly did it to some degree), they didn’t do it intentionally, or knowingly, or with malice aforethought or criminal intent. They probably just misplaced the telephone numbers (and the email addresses and Twitter handles) of Matt Taibbi, Glenn Greenwald, Aaron Mate, and other infamous “collusion rejectionists,” so they had no choice but to bring in the spooks. 
Look, I don’t want to beat this to death. The important thing is that we can all be grateful that none of that stuff I just mentioned happened, and, basically, just shut up and get back to work. This is not the time to remind everybody how totally insane and hysterical things got, and how they ran around like headless chickens squawking about “Russians” coming out of the woodwork, accusing anyone they disagreed with of being “Kremlin agents” or “Russian bots,” and begging corporations to censor the Internet. 
No, it’s time to, you know, let bygones be bygones, and just forget about all this “Russiagate” business, and the FBI, and that made-up dossier, and how respected publications like The Washington Post, The New York Times, The Guardian, and others published completely fabricated stories about secret meetings that never took place, power grid hackings that never happened, Russia-linked servers that never existed, imaginary Russian propaganda peddlers, and … well, too many other examples to list. 
Talking about all that is just a distraction (as my former colleagues on what has recently become the radical Rooskie-hunting Left wasted no time in advising everyone). Worse, it only helps Donald Trump, who, OK, maybe isn’t a Russian intelligence asset anymore, but is still almost literally Adolf Hitler … or at least some sort of inhuman monster that bears no resemblance whatsoever to Obama or any other normal president, and who is certainly going to declare martial law, proclaim himself Führer, and unleash his underground white supremacist army on us, or something more or less along those lines. 
And as for the non-existent deep state, and the Democrats, and the corporate media, and the millions of Americans they accidentally bamboozled … well, I imagine they’re feeling pretty silly right now. So this is not the time to demand a full accounting from the patriots in the intelligence community, or to compare the professionals in the corporate media to the keys of an enormous Goebbelsian piano mechanically hammering out whatever tune the ruling classes decide to play. 
Yes, they made a few mistakes, and got a little carried away, but they’re only human, after all. I’m sure they’re all very, very sorry, and will never, ever, do it again.
The Russian collusion hoax meets unbelievable end. Rep. Devin Nunes, Washington Examiner. April 05, 2019.
It’s now clear that top intelligence officials were perfectly well aware of the dubiousness of the dossier, but they embraced it anyway because it justified actions they wanted to take — turning the full force of our intelligence agencies first against a political candidate and then against a sitting president.


Trump is going to repeat this until November 2020. Thanks MSNBC. Caitlin Johnstone. March 25, 2019.


Can we lock up Rachel Maddow now? Raul Ilargi Meijer, Automatic Earth. March 25, 2019.


Leaked Mueller Report Proves Barr Lied; Collusion Theorists Vindicated. Caitlin Johnstone. April 1, 2019.
I feel a bit sheepish writing all this, because I’ve been a very vocal critic of the Russian collusion narrative from the very beginning. It turns out that by voicing skepticism and demanding evidence for a news story that dominated political discourse to the near exclusion of all else, I was actually assisting the Russian government in its war against democracy, truth, and justice. 
Obviously I owe the world a very big apology. I’m sorry for calling the Russiagaters idiots, morons, drooling imbeciles, stupid, gullible sheep, foam-brained human livestock, tinfoil pussyhat-wearing delusional conspiracy theorists, demented cold war-enabling McCarthyite bootlickers, oafish slug-headed slime creatures, energy-sucking, CIA-coddling wastes of space and oxygen, and an embarrassment to the human species
Clearly, because of their indisputable vindication this April the first 2019, they are definitely none of these things.

CNN Publishes Real News Story for April Fools' Day. The Babylon Bee. April 1, 2019.
Fooling thousands of readers in a prank that the cable news organization said was "just for fun," CNN published a real news story for April Fools' Day this year.

The story simply contained a list of facts, with no embellishment, editorializing, or invented details. The story also didn't cite shaky "anonymous sources" and only quoted firsthand witnesses to the event. It was completely factual without any errors whatsoever. 
Baffled CNN fans immediately knew something was up. 
"I was reading this story, and I was like, 'Wait, what is this?'" said one man in New York who relies on CNN for his fake news every morning. "They really got me good. Then I looked up at the calendar and I realized I'd been duped. A classic gag!" 
"Those little rascals!" he added, shaking his head and laughing good-naturedly. "As long as they return to their regularly scheduled fake news tomorrow, we're good. We're good."


The Official Skripal Story is a Dead Duck. Craig Murray. Apr. 17, 2019. 

Monday, April 22, 2019

Canada EVs

Canada iZEV Electric Car Incentive Program Begins May 1. Steve Hanley, Clean Technica. Apr. 22, 2019.

from the comments:
  • Canada's EV and transportation emissions strategy in general is one of the most pathetic in the world. It seems like we are actively trying to do everything wrong. The tax credit is small and applies to very few of the EVs on the market. There's little in the way of strategy to expand charge stations into more remote highways. The end of Greyhound means Canada has no national bus service. We have only one national train service and it's quality and reach is comparable to or worse than third world countries and only one province has any regional train service and that province has cut train services. And Canadians are switching from Sedans to the most gas guzzling vehicles on the planet and we're flying and driving everywhere. But we have a Carbon tax, well maybe not for long.
  • Generally pathetic...but 62% of Canadian Electricity is Hydro. And this EV incentive at $5000 Federal and in B.C. $5000 provincial means we will buy a Kia Niro Ev for $10,000 less. Should be next month if they are available. So some things are good... and then there are the oil sands
  • Being a Canadian, I have to say, Sorry this government sucks so bad and they dropped the ball after all their "Big Talk" (aka Bafflegab & doublespeak). Sadly the next one might be even worse, a "Conservative One". They are all pushing for more pipelines and more Tar Sands emissions and lip serving everything else.  This 5K with limits really is not going to help much as our dollar hurts us. Maybe some provinces will kick in Above & Beyond but forget the "Blue Ones", they won't. Even the new Premiere of Ontario Ol' Fordo kyboshed the BYD Factory being built... Not unlike the USA, We NEED a New Political Party with no deadheads & swamp creatures who will look to the future for all of us but alas it will never happen, just the same ol retreads who insist on painting pigs Black & White and calling them cattle.


List of eligible vehicles under the iZEV Program. Govt of Canada.


related, of note:

Electric vehicles emit more CO2 than diesel ones, German study shows. The Brussels Times. Apr. 17, 2019.
Mining and processing the lithium, cobalt and manganese used for batteries consume a great deal of energy. A Tesla Model 3 battery, for example, represents between 11 and 15 tonnes of CO2

EV Makers Face One Major Problem. Irina Slav, OilPrice.com. Sep 02, 2019.
If one listens to statements from carmakers with ambitious EV plans, one’s left with the impression that the world is in for a true automotive revolution and that those of us in their middle age right now will actually live to see a world with an almost entirely electric fleet. Alas, carmakers with ambitious EV plans have a vested interest in making such statements. Reality, as usual, tends to be different, and now these ambitious plans are facing a challenge: battery recycling costs.

Today's Electric Car Batteries Will Be Tomorrow's E-Waste Crisis, Scientists Warn. Maddie Stone, Motherboard. Nov. 6, 2019.


Wednesday, April 17, 2019

Topic: The Anthropocene

When Did the End Begin? A scientific debate that’s oddly amusing to entertain: At what point, exactly, did mankind irrevocably put the Earth on the road to ruin? Robert Sullivan, NY Mag. Jun 18, 2015.
In [a 2002 paper in Nature written by Paul Crutzen], he urged the scientific community to formally adopt what he named the Anthropocene (anthro from the Greek anthrópos, meaning “human being”) and to mark its beginning at the start of the Industrial Revolution. The evidence he cited is too depressing to recount in full here: The human population has increased tenfold in the past 300 years; species are dying; most freshwater is being sucked up by humans; not to mention the man-induced changes in the chemical composition of the atmosphere — essentially, all the facts the world is ignoring, avoiding, or paying people to obfuscate.

The Cataclysmic Break That (Maybe) Occurred in 1950. Robinson Meyer, The Atlantic. Apr. 16, 2019.
Later this month, a committee of researchers from around the world will decide whether the Earth sprang into the Anthropocene, a new chapter of its history, in the year 1950. If accepted, this delineation will signal a new reality, that human activities, not natural processes, are now the dominant driver of change on Earth’s surface—that carbon pollution, climate change, deforestation, factory farms, mass die-offs, and enormous road networks have made a greater imprint on the planet than any other force in the past 12,000 years.
...

Zalasiewicz chairs the Anthropocene Working Group, the committee that will soon vote on the existence of the epoch. “If you look at the main parameters of the Earth-system metabolism, then … things only began to change sharply and dramatically with industrialization,” he told me. He believes that the most significant event in humanity’s life on the planet is the Great Acceleration, the period of rapid global industrialization that followed the Second World War. As factories and cars spread across the planet, as the United States and U.S.S.R. prepared for the Cold War, carbon pollution soared. So too did methane pollution, the number of extinctions and invasive species, the degree of surface-level radiation, the quantity of plastic in the ocean, and the amount of rock and soil moved around the planet. 
It was “the Big Zoom,” he said, borrowing a phrase from the journalist Andrew Revkin. There is “nothing really comparable” to that shift in any other period of Earth history. Even setting carbon pollution aside, he said, the spike in fertilizer use led to the largest jump in surface nitrogen levels in 2.5 billion years.


Where the Wild Things were is Where Humans are Now: an Overview. J. L. R. Abegão, via springer. Aug. 2019.

Abstract

Humanity is undergoing an unprecedented demographic transformation in that global population is rising from 2 billion in the 1920s to an expected 8 billion in the 2020s, an annual increase of roughly 80 million. The requirements of this expanding human population are strongly linked to depletion of wildlife and increasing difficulties facing both wildlife and environmental conservation efforts. I assess current and potential risks stemming from the environmental changes due to unchecked human population growth.



Introduction

The global human population has more than quadrupled since the beginning of the twentieth century and overall growth is expected to rise in future (Population Reference Bureau 2018; UNDESA 2017a). Official forecasts (Population Reference Bureau 2018) predict that growth will be unevenly distributed around the world: of the 2.3 billion additional individuals anticipated between 2019 and 2050, roughly 1.3 billion will be born in Africa, 0.7 in Asia and 0.3 in the rest of the world. Even though there are global achievements in reducing fertility rates, notably in developed nations (Pison 2017; Frejka 2017; UNDESA 2017b), population growth remains a legitimate concern, primarily in developing nations. However, countries that have attained below replacement fertility (BRF) of 2.1 births per woman have not fully recognized the inherent social and environmental benefits (Götmark et al. 2018) and are faced with decelerating economic growth and an ageing population of dependent individuals. Consequently, 62% have enacted pro-natal policies (Wong and Yeoh 2003; UNDESA 2017b), and others have turned to immigration to fuel population growth (Cafaro 2018). The promotion of further population growth in countries with some of the highest carbon and the most significant ecological footprints (Global Footprint Network 2018; World Bank 2019)) is not just environmentally detrimental but morally questionable (Rieder 2017; Conly 2016). Human collective responsibility to the environment, in preserving wildlife, and to alleviate human suffering due to the effects of climate change that are predominantly attributable to affluence or wealth, creating extreme carbon inequality, has been widely recognized (Oxfam International 2015; Rieder 2016; Hubacek et al. 2017; Population Media Center 2018; Randers et al. 2018; UN Environment 2019; Vidal 2019). Ignoring the moral dimensions of migration and efforts to increase fertility, the environmental impacts of mass movement of peoples from low-income countries to higher-income countries are ultimately detrimental to global environmental sustainability (Cafaro and Staples 2012; Hickey et al. 2016; Kopnina and Washington 2016; Phillips et al. 2018; Frum 2019).

Population Growth as a Threat Multiplier to the Natural World

Although the size of the global human population has often been characterized as unsustainable in terms of its current and future ecological impacts, there are those who claim that human population growth will translate into benefits, such as higher educational levels, contributing to more solutions for the problems created by an otherwise unsustainable global population (e.g., Ord 2014; Itkowitz 2019). However, overall,the scientific consensus is that the current rate of human population growth is not sustainable (Daily and Ehrlich 1992; Union of Concerned Scientists 1992; Pimentel et al. 1994; Murtaugh and Schlax 2009; LeDoux 2009; Cafaro 201 2; Ehrlich et al. 2012; Ripple et al . 2017; Bongaarts and O'Neill 2018; Kuhlemann 2018a, b) and is a root cause and a multiplicative agent in the ongoing global mass extinctions

...


Conclusion

Ultimately, global goals of protected-area coverage and the conservation of wildlife, in general, are unlikely to be met unless PAs are well managed, appropriately located (Butchart et al. 2015), better -funded (Cunningham and Beazley 2018), and conservation targets are scientifically and not politically driven.4 However, as Cafaro et al. (2017) note, achieving these goals will require curbing further population growth as well as decreasing our current global population to an optimum size of 1.5 to 2 billion individuals (Daily et al. 1994; Foreman and Carroll 2015). We have to realize that a world with ever more human beings is also a world with more human encroachment, habitat loss, deforestation, depletion of ecosystems, and climate breakdown, all leading to the inevitable outcome of wildlife depletion. Therefore, it is imperative to facilitate the clarification and public awareness of the link between the growth of global human population and the rise in per capita affluence, and how, in conjunction, these trajectories potentially lead to possibly irreversible negative impacts on our climate and environment. Harding (2018) argues that it is paramount that the goals of global human population stabilization and eventual reduction are included in this agenda. In order to achieve that scenario, we should humanely curb population growth by choosing to act on its deliberate reduction. Paul. R. Ehrlich (2013) has proposed that:“… the best way to accelerate the move toward such population shrinkage is to give full rights, education,and job opportunities to women everywhere, and provide all sexually active human beings with modern contraception and backup abortion.” The best strategies to secure a reversal of population growth are currently the advancement of women’s rights for equality, political voice, economic independence, as well as the dissolution of patriarchal norms such as child marriage (Engelman 2016). Further, the removal of barriers to contraception and safe and legal abortion (Population Matters 2019), as well as removal any cultural stigma associated with the choice of smaller family sizes or no children are equally important. ‘Educating girls’ and‘family planning’ are together demonstrably the best methods for the reduction of atmospheric CO2 and amelioration of consequences of global warming (Project Drawdown 2019).Resources and support from the developed world will play a decisive role in the success of these approaches (Guttmacher Institute 2019; The Overpopulation Project 2019).

Tuesday, April 16, 2019

Issues in the Economics of Climate Change

Economic Estimates of Damages vary significantly and are beset by difficulties leading to underestimation.


Reflections – Managing Uncertain Climates: Some Guidance for Policy Makers and Researchers. Frank Convery and Gernot Wagner. 2015. 

Selected excerpts:

Climate change—and, by extension, climate policy—is beset with unknowns and unknowables.

We believe that what we don’t know only hastens the case for action.

Dealing with uncertainty is hard under the best of circumstances, but the challenge is compounded when examining climate change, an issue that uniquely combines four characteristics—it is global, long-term, irreversible, and uncertain.

Many have pointed to the problem uncertainty poses. Pindyck (2013a), for example, offers a powerful critique of the use of integrated assessment models (IAMs) to assess climate policy, focusing in particular on their treatment of uncertainty: “IAM-based analyses of climate policy create a perception of knowledge and precision, but that perception is illusory and misleading.” Many others, including Stern (2013, 2015), largely agree. Weitzman (2009, 2011, 2012, 2014) and Wagner and Weitzman (2015) highlight the importance of tail risks and grapple with the implications. Heal and Millner (2014b) discuss the implications for decision theory, and Fisher and Le (2014) discuss the implications for policy more broadly.

Meanwhile, the ‘most likely’ value for climate sensitivity has been around 2.5 or 3°C (4.5 or 5.4°F), until the IPCC stopped using any specific number altogether in 2013. Thus, there appears to be greater and more deep-seated uncertainty around this crucial climate parameter than was thought possible only five years earlier. The IPCC’s removal of 3°C (5.4°F) as the ‘most likely’ value may well have been an effort to counter the natural tendency to focus on the average rather than the range. However, that step is still insufficient to capture the full range of uncertainty. As Weitzman (2009, 2011, 2012, 2014), Wagner and Weitzman (2015), and many others demonstrate, the relatively wide ‘likely’ range doesn’t tell all. It is the upper bound (or possible lack thereof) of climate sensitivity that ought to command particular attention because steeply increasing damage functions make even small chances of high temperature increases incredibly costly—‘catastrophic’ to use a more colloquial yet apt description. In the final analysis, climate change is a risk management problem on a planetary scale, with no chance of a do-over. That, in short, is the unprecedented nature of this problem.

All too often, uncertainty has been seen as an excuse for inaction on climate policy. This is clearly the wrong response in the face of uncertainty (Risky Business Project 2014, Wagner and Weitzman 2015). First, the uncertainty about climate sensitivity is only one of many. Just the first step in projecting climatic outcomes—calculating future emissions trajectories—is already beset with enormous uncertainties: The famous ‘IPAT’ equation breaks down impact (here, carbon emissions) into three components: population, affluence, and technology.3 Each of these components is difficult to predict individually. When combined they result in enormous uncertainty around future emissions pathways. Each other step in the climate chain—from emissions at one end to society’s reaction to the final impacts at the other—comes with further compounding uncertainties. … Third, the potentially long and ‘fat’ upper tail of the climate sensitivity distribution may yet wag us.5 This is because although the lower end of the distribution is typically and sensibly cut off at 0°C, consensus science sees no such certain threshold on the upper end. In contrast to the IPCC’s (2013) view that any climate sensitivity realization below 1°C (1.8°F) is “extremely unlikely”—a (perhaps overly precise) probability of 5% and below—it assigns the label “very unlikely”—10% and below—to anything above 6°C (10.8°F). This implies that the climate sensitivity distribution is skewed to the right, which means that higher temperature realizations are more likely than low ones (see Figure 1).



Figure 1—Climate sensitivity calibrated using a log-normal distribution

Few scientists would dispute that global average temperature increases of 2, 3, or even 4°C (3.6, 5.4, or 7.2°F) would entail profound, Earth-as-we-know-it-altering changes. The last time global average temperatures were about 2 to 3.5°C (3.6 to 6.3°F) above preindustrial levels— roughly 1 to 2.5°C (1.8 to 4.5°F) above today’s levels—sea levels were up to 20 meters (66 feet) higher than today, and today’s subtropical fauna roamed the Arctic (IPCC, 2013).6 Eventual global average warming of 5 or even 6°C (9 or 10.8°F) is beyond most scientists’ data and most people’s imagination. But when we combine our climate sensitivity calibration based on the 6 That was a bit over 3 million years ago, when global CO2 concentrations stood at 400 ppm—today’s levels! IPCC’s (2013) consensus statements, conservatively interpreted in Figure 1, with the IEA (2013) 700 ppm scenario, that’s where we end up -- a greater-than-10-percent chance of eventually exceeding average global warming of 6°C (10.8°F). 2015). Average projections are bad enough, but it’s the small-probability, high-impact events that ought to command particular attention. That possibility all but calls for a precautionary approach to climate policy.

Pindyck argues that standard climate-economy models fall victim to two important fallacies in dealing with uncertainty: by necessity, they focus on what is known and can be quantified, thus leaving out what isn’t known and can’t be quantified, and they convey a false sense of precision. Weitzman (2009, 2011, 2012, 2014) makes perhaps the most persuasive case for going beyond standard benefit-cost analysis, arguing that climate change is among a small list of potentially catastrophic low-probability, high-impact events that deserve special attention far beyond what standard treatments can offer (Wagner and Weitzman, 2015).

We would argue that existential risk on a planetary scale deserves quite different attention than, for example, “the construction of levees to avert major flooding,” two of the examples discussed by Martin and Pindyck. One could add asteroids, genetically modified organisms, robots run amok, and many others to that list. It is clear that climate change is not the only potential catastrophe facing the planet. However, climate change may, in fact, be in the unique position of having the biggest gap between the types of investments (both public and private) that science tells us are necessary and current levels of spending on it (Wagner and Weitzman, 2015). Thus, at the very least, persistent uncertainties imply that we need to move beyond benefit-cost analysis as the sole decision criterion. Heal and Millner (2013, 2014b) present a range of alternative decision criteria, with a version of a ‘precautionary principle’ being perhaps the most prominent.

If a society is to implement rational climate policy, one of the most important decisions it must make is how much value to place on future generations (Summers and Zeckhauser, 2008). This raises the crucial issue of which discount rate to use, with all its normative implications

The climate system is beset with tipping points. Witness the irreversible collapse of parts of the West Antarctic ice sheet (Joughin et al., 2014, and Rignot et al., 2014). The (theoretical) possibility and empirical implications of non-linearities and tipping points are beginning to find their way into climate-economy models (e.g., Ceronsky et al. 2011, Keller, Bolker, and Bradford, 2004, Lemoine and Traeger, 2014ab, Lontzek, Cai, and Judd, 2012, van der Ploeg and de Zeeuw, 2014). However, the work is far from done. Some tipping points interact with—and, thus, are as difficult as addressing—irreversibilities, which inevitably invoke the specter of ‘infinity’ with all the difficulties that involves. Other elements of non-linearities ‘simply’ point to the need to explore climate damage functions that don’t follow neat quadratic, exponential, or other simple functional form patterns (e.g., Crost and Traeger 2014, Sterner and Persson 2008). Much empirical work remains to be done to draw definitive conclusions about the importance of different types of damage functions, although one conclusion has already clearly emerged: virtually all non-linearities and possible tipping points point in one direction, that of more steeply rising climate damages. That once again implies a higher social cost of carbon.

Climate-economy models, IAMs, play a crucial role in climate economics and policy. For example, the current U.S. social cost of carbon (around $40 per ton of CO2 emitted in 2015 in current prices) is calculated using inputs from three models: DICE, FUND, and PAGE (U.S. Government Interagency Working Group on Social Cost of Carbon, 2013). All three models share one important characteristic: they each are the brainchild of a single academic—William Nordhaus, Richard Tol, and Chris Hope, respectively. … As of now, IAMs lag years behind the latest climate science.




The economically optimal warming limit of the planet. Falko Ueckerdt et al. 2018. 

just including the abstract and a bit of the intro:

Abstract

Both climate-change damages and climate-change mitigation will incur economic costs. While the risk of severe damages increases with the level of global warming (Allen et al., 2018; Dell et al., 2014; IPCC, 2014b; Lenton et al., 2008), mitigating costs increase steeply with more stringent warming limits (Allen et al., 2018; IPCC, 2014a; Rogelj et al., 2015). Here we show that the global warming limit that minimizes this century’s total economic costs of climate change lies between 1.9 and 2°C if temperature changes continue to impact national economic growth rates as observed in the past. The result is robust across a wide range of normative assumptions on the valuation of future welfare and inequality aversion. For our study we estimated climate change impacts on economic growth for 186 countries based on recent empirical insights (Burke et al., 2015a), and mitigation costs using a state-of-the-art energy-economy-climate model with a wide range of highly-resolved mitigation options. Our purely economic assessment, even though it omits non-monetary damages, provides support for the international Paris Agreement on climate change. The political goal of limiting global warming to “well below 2 degrees” is thus also an economically optimal goal.

Introduction

“Holding the increase in the global average temperature to well below 2°C above preindustrial levels and pursuing efforts to limit the temperature increase to 1.5°C” is a central element of the global climate agreement reached in Paris in December 2015 (UNFCCC, 2015). This political goal builds on the scientific insight that a global warming beyond 1.5–2°C poses risks of potentially severe impacts such as insecure food and drinking water supply (Allen et al., 2018; IPCC, 2014b), threatened biodiversity (Dawson et al., 2011; Willis and Bhagwat, 2009), large-scale singular events (Lenton et al., 2008; Schellnhuber et al., 2016), displacement (Hsiang and Sobel, 2016), or human conflict (Hsiang et al., 2013a; Schleussner et al., 2016). Many of these risks and their societal consequences are difficult or even impossible to capture in economic terms. Here we focus on the direct impacts of global warming on economic output. Taking a purely economic perspective that omits non-monetary damages, we derive the optimal warming limit of the planet by minimizing this century’s (2015–2100) costs of climate change. The analysis combines mitigation cost estimates from a detailed energy-economy-climate model with an empirically based damage estimation, which assumes that the observed relation of economic damages and annual temperatures of a country remains valid for the future.

Cost-benefit integrated assessment models (Anthoff and Tol, 2014; Hope, 2013; Nordhaus, 2014, 2010) typically use “damage functions”, which aggregate the economic costs from climate impacts as a function of the global warming. Here we take a different approach. We estimate climate damages from annual gridded temperature data (0.5° x 0.5° resolution) for 186 countries based on the empirical relation between temperature deviations and economic growth rates derived in Burke et al. (Burke et al., 2015a).

In their pioneering work, Burke et al. derive an empirical relation of annual historical temperature deviations and GDP changes based on country-specific data for 50 years (1960-2010) and 166 countries (which we then apply for 186 countries). The regression analysis captures the aggregated climate-related impacts across all economic sectors that contribute to a country's GDP changes. Burke et al. find that growth rates change concave in temperature, i.e. cold-country productivity increases as annual temperature increases, while warm-country productivity decreases and this decline accelerates at higher temperatures (see Fig. A4). Damage aggregates across countries show that losses exceed benefits such that global damage estimates are high (>20% of global GDP in 2100 under RCP8.5, see Fig 1a).


MW: Even this paper, which uses unrealistic assumptions, and which estimates global damages under RCP 8.5 of >20% of global GDP in 2100, when all climate scientists and most scientists in general would argue that RCP 8.5 will lead to billions of lives lost and the collapse of the biosphere and thus civilization, nonetheless argues that it would be economically optimal to keep climate change <2C.




Climate change uncertainty and decision-making. Arun Malik, Jonathan Rothbaum, Stephen Smith. 2010.
Climate Change Uncertainty

The 2007 IPCC report on the physical science basis of climate change includes many models which show the wide range of temperature increase predictions. Figure 1 gives a sense for the uncertainties involved in climate change modeling. Each model attempts to take what we know about the climate system and determine the probability that the climate will stabilize with a global mean temperature increase from 0-10°C. While there is broad agreement across the models that temperature increases will occur, the distributions vary considerably.



The purpose of this section is to show just how pervasive the uncertainties involved in climate change are. These uncertainties and issues can be broken down into broad categories to give a sense of how they might affect different decision-makers.

2.1 Environmental Uncertainties and Issues

2.1.1 Feedback Loops – Ecological and Physical Processes
  • Carbon Cycle
  • Atlantic Ocean Meridional Overturning Circulation (MOC)
  • Clouds
  • Methane and Permafrost Melting
2.1.2 Thresholds and Irreversibilities
  • Sea Level Rise
  • MOC
  • Vegetation Cover
  • CO2 Persistence in the Atmosphere
2.1.3. Precipitation
2.1.4 Extreme Weather Events
.
.
2.2 Economic Uncertainties
.
.
2.3 Model and Parameter Uncertainty
.
.
3.1 Risk vs Ambiguity
3.2 Fat-Tailed Distributions
.
3.4 Unknown Unknowns
.
.
5.2 Precautionary Principle



Endogenous Growth, Convexity of Damage and Climate Risk: How Nordhaus’ Framework Supports Deep Cuts in Carbon Emissions. Nicholas Stern and Simon Dietz. 2015. (selected excerpts)

‘To slow or not to slow’ by Bill Nordhaus (1991) is a landmark in economic research. As the first analysis of the costs and benefits of policies to abate greenhouse gas emissions, it opened the profession to a new field of application – climate change. Its importance is partly illustrated by the number of times that it has been cited – on 1,150 occasions according to Google Scholar; 398 times according to the narrower, journals only measure in ISI Web of Knowledge. The context within which Nordhaus’s paper was written helps us understand its contribution. While the basic science of the greenhouse effect was set out in the nineteenth century by Fourier, Tyndall and Arrhenius, discussions surrounding the possible role of humans in enhancing it – and therefore causing global warming and climate change – began in earnest in the 1970s. For at least a decade, climate change remained largely a scientific/environmentalist’s issue, debated in specialist conferences and networks (Agrawala, 1998). Indeed, it is important to stress that the science of climate change was running years ahead of the economics (something that arguably remains the case today in understanding the impacts of climate change; Stern, 2013).

By the late 1980s, however, climate change was becoming both a policy issue and increasingly political.

… model took ‘existing models and simplified them into a few equations that are easily understood and manipulated’ (p. 920), something that has become a hallmark of Nordhaus’s work in the area.

Once again, the results of the analysis with DICE pointed to modest emissions controls, modestly increasing over time – from 10% initially to 15% in the later twenty-first century. Since these first studies with the DICE model, it has become the pre-eminent integrated assessment model (IAM) in the economics of climate change.

A central purpose of this article is to explore whether a recommendation of modest emissions reductions does indeed follow from using the DICE framework. We ask, can the framework support strong controls on emissions, if restrictive assumptions about growth, damage and climate risk are relaxed? These assumptions arguably lead to gross underestimation of the benefits of emissions reductions in DICE and other IAMs (Stern, 2013). First, we incorporate endogenous drivers of growth and we allow climate change to damage these drivers. This is in stark contrast to the current generation of IAMs… Second, we assume that the damage function linking the increase in global mean temperature with the instantaneous reduction in output is highly convex at some temperature... Third, we allow for explicit and large climate risks. ..

We conduct sensitivity analysis on high values but also specify a probability distribution reflecting the latest scientific knowledge on the climate sensitivity as set out in the recent IPCC report (IPCC, 2013). Its key characteristic is a fat tail of very high temperature outcomes that are assigned low probabilities. By contrast, most IAM studies have ignored this key aspect of climate risk by proceeding with a single, best guess value for the climate sensitivity, typically corresponding to the mode of the IPCC distribution. We note, linking the second and third points here, that the model temperature increase under business as usual a century or so from now of 3.5 or 4°C (IPCC, 2013) could be extremely damaging – this is not just a ‘tail’ issue. …

Science and impact studies tell us that, not only could we cross several key physical tipping points in the climate system by the time the 4°C mark is reached (Lenton et al., 2008), the impacts of such warming on the natural environment, economies and societies could be severe … Given the potential magnitude of transformation illustrated by this example, the assumption that Dt = 0.5 when T = 4 may be no less plausible, to put it cautiously, than assuming, as (2) does with the standard parameterisation, that Dt = 0.04 when T = 4, i.e. only 4% of output is lost as a result of temperatures not seen for 10 million plus years. 

[MW: are you f'g kidding me?! that is to say, standard DICE-like IAM economic models are full of shxt]


In standard DICE S = 3°C. However, it has long been known that there is substantial uncertainty about S (Charney, 1979). Moreover investigations in recent years (as collected by Meinshausen et al., 2009) have tended to yield estimates of the pdf of S that have a large positive skew

Figure B5 shows that the optimal mean stock of atmospheric CO2 peaks in our endogenous growth models at no more than about 500 ppm, and as little as 420 ppm, depending on the growth model and damage function. These stock levels are well below those in the standard DICE model.

5. Conclusions

‘To slow or not to slow’ (Nordhaus, 1991) and its subsequent development into the dynamic DICE model have given us what seems to be a coherent and powerful framework for assessing the costs and benefits of climate-change mitigation. But it has in-built assumptions on growth, damage and risk, which together result in gross underassessment of the overall scale of the risks from unmanaged climate change (Stern, 2013). This criticism applies with just as much force to most of the other IAMs that DICE has inspired. …

The study is only a preliminary investigation, whose purpose was to illustrate or sketch the consequences of relaxing assumptions that have limited plausibility and possible large effects on policy conclusions.


Table 4: Optimal Carbon Prices



[MW: So, estimates by Stern of SCC range from $70 to $329, as compared to: ]

“In standard DICE the emissions control rate, that is the percentage reduction in industrial carbon dioxide emissions, is 0.158 in 2015, with an associated carbon price of $44/tC in 2005 prices”






Subject to caveats implicit and explicit from articles above, and subject further to recognition that economic IAMs embed climate models’ ECS, but the economic models lag, so do not reflect the latest climate science, and ECS is now known to be higher than previously assumed; and subject to further recognition that economic models of climate damages are divorced from concepts of ecology and destruction of ecosystem services we require, fwiw, existing studies of economic damages that can be for reference include:


The Economic Consequences of Climate Change. OECD. 2015.












Page 80: In the case of a high climate sensitivity (equal to 4.5 ºC or 6 ºC temperature increase), this annual loss rises to 6% and more than 9%, respectively, by 2100. This insight also holds for climate impacts occurring before 2060: effectively any emission, whether now or in the future, triggers a series of effects and leads to an increase in climate damages for at least a century. Thus, there are damages that are already committed to now due to historical emissions; in the AD-DICE model, these gradually increase to around 0.6% of GDP (for the central ECS estimate), although the model is not fine-grained enough (and not intended to be) to assess current damage levels accurately.






[MW: so, once again, re: the insight noted above.... these types of studies are seriously divorced from reality; the notion that a planet with temperatures 6C higher will suffer only damages of (name whatever f'g arbitrary $$ value you want here) is laughably inane. see Schellnhuber's or Box's or Anderson's scientific assessment of what 4C implies -- the destruction of civilization!]



Valuing Climate Damages: Updating Estimation of the Social Cost of Carbon Dioxide. Natl Academies. 2017.

The social cost of carbon (SC-CO2) is an economic metric intended to provide a comprehensive estimate of the net damages—that is, the monetized value of the net impacts, both negative and positive— from the global climate change that results from a small (1 metric ton) increase in carbon dioxide (CO2) emissions. Under Executive Orders regarding regulatory impact analysis and as required by a court ruling, the U.S. government has since 2008 used estimates of the SC-CO2 in federal rulemakings to value the costs and benefits associated with changes in CO2 emissions. In 2010, the Interagency Working Group on the Social Cost of Greenhouse Gases (IWG) developed a methodology for estimating the SC-CO2 across a range of assumptions about future socioeconomic and physical earth systems.

The IWG asked the National Academies of Sciences, Engineering, and Medicine to examine potential approaches, along with their relative merits and challenges, for a comprehensive update to the current methodology. The task was to ensure that the SC-CO2 estimates reflect the best available science, focusing on issues related to the choice of models and damage functions, climate science modeling assumptions, socioeconomic and emissions scenarios, presentation of uncertainty, and discounting.

Integrated assessment models (IAMs) are currently used by the IWG to estimate the economic consequences of CO2 emissions. The IAMs define baseline emission trajectories by projecting future economic growth, population, and technological change. In these IAMs, a 1 metric ton increase in CO2 emissions is added to the baseline emissions trajectory. This emissions increase is translated into an increase in atmospheric CO2 concentrations, which results in an increase in global average temperature. This temperature change, as well as changes in other relevant variables, including CO2 concentrations and income, is translated (either explicitly or implicitly) to physical impacts and monetized damages. These damages include, but are not limited to, market damages, such as changes in net agricultural productivity, energy use, and property damage from increased flood risk, as well as nonmarket damages, such as those to human health and to the services that natural ecosystems provide to society. Because most of the warming caused by an emission of CO2 into the atmosphere persists for well over a millennium, changes in CO2 emissions today may affect economic outcomes for centuries to come. Streams of monetized damages over time are converted into present value terms by discounting. The present value of damages reflects society’s willingness to trade value in the future for value today…. The IWG’s current estimate of the SC-CO2 in the year 2020 for a 3.0 percent discount rate is $42 per metric ton of CO2 emissions in 2007 U.S. dollars.






LIMITATIONS OF SIMPLE EARTH SYSTEM MODELS

In complex climate models, the parameters described in Box 4-1—ECS, TCR, TCRE, and IPT—are resultant behaviors of the climate system, not input parameters. They arise from physical properties of the Earth system, such as the heat capacity of the ocean and the magnitude of different feedbacks that amplify or dampen the temperature change caused by radiative forcing. The strength of these feedbacks depends on the state of the climate; they are not generally constant, and they may vary in response to the magnitude of forcing and spatial pattern of forcing, as well as over time (Knutti and Rugenstein, 2015). By contrast, in simple Earth system models at least some of these metrics are input parameters. For Earth system models. It is therefore important to be aware of three key limitations of this assumption and the use of ECS, TCR, TCRE, and IPT as parameters.

The first limitation is that these metrics are all defined with respect to a reference state, such as the preindustrial state of Earth.

The second limitation is that these parameters are diagnosed using tests that hold certain elements of the climate system constant. This inactivates so carbon cycle feedbacks are also excluded. If these other feedbacks are predominantly positive, then on the timescales on which they are operative, measures such as ECS and TCR will understate the expected warming.

The third limitation is that three important feedbacks are excluded from ECS and TCR: the response to changes in albedo related to land ice, changes in albedo and transpiration related to land cover changes and the dust/aerosol feedbacks that impact biogeochemical cycles. Geological data suggest that these feedbacks may amplify warming by about 50 percent relative to that expected based on ECS alone

…. Currently, the damage component of an SC-IAM translates streams of socioeconomic variables (e.g., income and population and gross domestic product) and physical climatic variables (e.g., changes in temperature and sea level) into streams of monetized damages over time. …. Another attribute of the SC-IAMs that underpin the current IWG estimates is that much of the research on which they are based is dated.

… The committee notes that the Interagency Working Group on the Social Cost of Carbon (2010) identified a number of potential shortcomings and critiques of the current damage formulations, which are discussed further below.
These include:

  • incomplete treatment of noncatastrophic damages; 
  • incomplete treatment of potential catastrophic damages; 
  • uncertainty in extrapolation of damages to high temperatures; 
  • incomplete treatment of adaptation and technological change; 
  • omission of risk aversion with respect to high-impact damages; 
  • failure to incorporate intersectoral and interregional interactions; and 
  • imperfect substitutability of consumption for environmental amenities.





Other research on Valuing Climate Damages / Social Cost of Carbon / Integrated Assessment Models:


To Slow or Not to Slow: The Economics of the Greenhouse Effect. William Nordhaus. 1992.

The Economics of Climate Change: The Stern Review. Nicholas Stern. 2007.

Climate change uncertainty and decision-making. Arun Malik, Jonathan Rothbaum, Stephen Smith. 2010.

Towards and ecological economics. Peter Victor and Tim Jackson. 2012.

Better Growth, Better Climate: Global Report. New Climate Economy. 2014.

Endogenous Growth, Convexity of Damage and Climate Risk: How Nordhaus’ Framework Supports Deep Cuts in Carbon Emissions. Nicholas Stern and Simon Dietz. 2015.

Climate Change Risks and Adaptation: Linking Policy and Economics. OECD. 2015.

The Economic Consequences of Climate Change. OECD. 2015.

Reflections – Managing Uncertain Climates: Some Guidance for Policy Makers and Researchers. Frank Convery and Gernot Wagner. 2015.

Technical Update to Environment and Climate Change Canada’s Social Cost of Greenhouse Gas Estimates. Environment and Climate Change Canada. 2016.

Policy tradeoffs under risk of abrupt climate change. Yacov Tsur and Amos Zemel. 2016.

Economics of the Climate. Geoffrey Heal. 2017.

Valuing Climate Damages: Updating Estimation of the Social Cost of Carbon Dioxide. Natl Academies. 2017.

Frontiers of Climate Change Economics. Van der Meijden, van der Ploeg, Withagen. 2017.

Pricing Carbon and Adjusting Capital to Fend off Climate Catastrophes. Van der Ploeg, de Zeeuw. 2018.

Climate change and the macro-economy: a critical review. Sandra Batten, Bank of England staff working paper. 2018.

One Step Forward, One Step Back: Assessing the Consequences of Three Decades of Climate Gridlock in the U.S. Joseph Curtin and Max Munchmeyer, IIEA. 2019.





Ecological Economics


Economics and the Ecosystem. Real World Economics Review. 2019.

Degrowth: a theory of radical abundance. Jason Hickel.

Elements of a political economy of the postgrowth era. Max Koch.

Victim of success: civilisation is at risk. Peter McManners.

Economism and the Econocene: a coevolutionary interpretation. Richard Norgaard.

End game: the economy as eco-catastrophe and what needs to change. William Rees.

An ecosocialist path to limiting global temperature rise to 1.5C. Richard Smith.

Like blending chalk and cheese – the impact of standard economics in IPCC scenarios. Joachim Spagenberg and Lia Polotzek.

Of ecosystems and economies: re-connecting economics with reality. Clive Spash and Tone Smith.

How to achieve the Sustainable Development Goals within planetary boundaries by 2050. Per Espen Stoknes.




See also

Lenton, Timothy. Tipping elements in the Earth’s climate system. 2008.

Rockstrom, Johan. Planetary boundaries: Exploring the safe operating space for humanity. 2009.

Barnosky, Anthony. Approaching a state shift in Earth’s biosphere. 2012.

Steffen, Will. Trajectories of the Earth System in the Anthropocene. 2018.

Ehrlich, Paul and Anne. Can a collapse of global civilization be avoided? 2013.