A couple of weeks ago, I published a selection of photographs from a number of pictures that had been sent to me by Cynthia. I named the post Small pause today and it received 25 ‘Likes’ and favourable comments including one from Pedantry that simply said, “More of the same, please!”
So to Pedantry and all you other dear readers, here comes more of the same!
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Forgive me now for this little indulgence; a couple of pictures from closer to home – literally!
An early morning picture of the woods overlooking our Oregon property.
My lovely Jeannie helping tidy up the bank of the creek.
The next couple of weeks are going to be ‘interesting’.
You will have been aware from my post last Saturday, The naming of creeks!, that heavy rains washed away the supports to the bridge that crosses Bummer Creek inside our property.
So apologies for taking a break from writing something more substantial for today but yesterday (I’m writing this at 5pm on the 6th, i.e. yesterday) the crew that will be repairing the damage arrived and got to work. It has not been a normal day!
Three pictures to explain why!
This seriously large digger was delivered around 9am!
Then in what seemed a matter of moments, the bridge was no more!
Pharaoh, of course, was getting involved. Let’s face it, even bridge construction people can always learn from dogs!
Maybe the power of open communications is our only way forward.
A number of disparate ideas have flown into my ‘in-box’ and left me with these thoughts.
The first was the last essay on TomDispatch. This one from the hands of Mr. Engelhardt himself. I’m referring to Tomgram: Engelhardt, The Washington Straitjacket. As many of you know, Tom has been generous in granting me blanket permission to republish his posts and I frequently so do; as yesterday’s post written by Professor Michael Klare demonstrated.
Let me give you a idea of where Tom was coming from with this personal essay,
The Barack Obama Story (Updated) How a Community Organizer and Constitutional Law Professor Became a Robot President
By Tom Engelhardt
President Barack Obama
The White House
1600 Pennsylvania Avenue, NW
Washington, D.C. 20500
Dear President Obama,
Nothing you don’t know, but let me just say it: the world’s a weird place. In my younger years, I might have said “crazy,” but that was back when I thought being crazy was a cool thing and only regretted I wasn’t.
I mean, do you ever think about how you ended up where you are? And I’m not actually talking about the Oval Office, though that’s undoubtedly a weird enough story in its own right.
The next paragraph opens, thus:
After all, you were a community organizer and a constitutional law professor and now, if you stop to think about it, here’s where you’ve ended up: you’re using robots to assassinate people you personally pick as targets.
Then there’s a comprehensive description of all the outcomes that have taken place in the last few years as in this paragraph,
Still, who woulda thunk it? Don’t these “accomplishments” of yours sometimes amaze you? Don’t you ever wake up in the middle of the night wondering just who you are? Don’t you, like me, open your eyes some mornings in a state of amazement about just how you ended up on this particular fast-morphing planet? Are you as stunned as I am by the fact that a tanker carrying liquid natural gas is now making a trip from Norway to Japan across the winter waters of the Arctic? Twenty days at sea lopped off an otherwise endless voyage via the Mediterranean Sea, and the Indian and Pacific Oceans. Did you ever think you’d live to see the opening of the Northeast Passage in winter? Don’t you find it ironic that fossil fuels, which helped burn that oceanic hole in the Arctic ice, were the first commercial products shipped through those open waters? Don’t you find it just a tad odd that you can kill someone in distant Yemen without the slightest obstacle and yet you’ve been able to do next to nothing when it comes to global warming? I mean, isn’t that world-championship weird, believe-it-or-not bizarre, and increasingly our everyday reality?
Tom’s essay comes to this conclusion,
And don’t you ever wonder whether a labyrinth of 17 (yes, 17!) major agencies and outfits in the U.S. “Intelligence Community” (and even more minor ones), spending at least $75 billion annually, really makes us either safe or smart? Mightn’t we be more “intelligent” and less paranoid about the world if we spent so much less and relied instead on readily available open-source material?
I mean, there are so many things to dream about. So many ghostly possibilities to conjure up. So many experimental acts that offer at least a chance at another planet of possibility. It would be such a waste if you only reverted to your community-organizer or constitutional-law self after you left office, once “retirement syndrome” kicked in, once those drones were taking off at the command of another president and it was too late to do a thing. You could still dream then, but what good would those dreams do us or anyone else?
It’s a very powerful analysis that I really encourage you to read.
Then thanks to a mailing from the WordPress team, I was drawn to a recent account of life by Ruth Rutherford. In an essay from the 13th November, Ruth writes about living in the dark, as this sample evocatively describes,
Dating in the dark
Just got back from visiting my ol’ stomping grounds in New Jersey where I spent the weekend with my parents and grandparents, just talking, eating and enjoying good company. And all this was done in the dark. Yep, that’s right. Even nearly two weeks after Hurricane Sandy unleashed her fury, the Garden State is still struggling to recover. And let me tell you: Living without power for that long will quickly make you appreciate the little things.
Like walking into a dark room and then transforming it with just the flip of a switch. Or turning on a faucet and seeing water actually pour out. Or pulling into a gas station on any day you choose, not just the days you’re allowed to based on the numbers on your license plate. Or just using the bathroom without strategically planning your “number twos” based on how much water is in the tank. Or not having to wake up at two o’clock in the morning to wander outside in your pajamas to fill the generator with gas. (Okay, fine. My dad did that part. But still…)
When you’re without electricity for a while, your mind tends to do a lot of thinking. There are no reality shows to turn your brain into mush, no hair dryers to block out the noise of everyday life, and no steaming hot baths to drown your worries in. Basically, it’s you, alone, with a candle, a flashlight and your thoughts. So I spent the time brain blogging.
At the heart of this essay is the concept that ‘dating’ as in finding one’s life partner has become too complex. This is how Ruth concludes her ideas.
Yep, I’m telling you to be shallow.
Forget the deep end, folks. Jump, cannonball style, into the shallow end and let the fun begin!
Shared interests. Favorite movies. Local hot spots. Interesting hobbies. Recent vacations. Current music playlists. Boring work stories. Embarrassing childhood memories. Stupid jokes. Mutual attraction. Sparks. Chemistry.
Because if you can’t relate on these basic levels, then who the heck cares if you both want two boys, one girl and a yellow Labrador named Minnie?
Start small. Start simple. Grab a lantern and meet during a power outage. It’s amazing what you’ll find out about your date in the dark. (With your clotheson, people! Get your minds out of the gutter.)
~Ruth
Finally, closer to home. Patrice Ayme and Martin Lack have been exchanging views in comments to my recent post Unintended Consequences. Patrice ended a comment with this: ” If goodness is to win, it has to be smarter than the enemy.”
So what’s this all coming to? According to WordPress there are over 500,000 people blogging about the world as they see it. The number of others who read all those words must be well into many, many millions. Even humble old Learning from Dogs received over 45,000 viewings in November alone bringing the total viewings to over 785,000!
As the saying goes, “the only thing required for evil to win, is for good people to do nothing.”
The article in The New York Times tells the story of students, faculty and alumni around the country who are demanding divestment from fossil fuels. On a few campuses, like Swarthmore, they’ve been at it for semesters — but all of a sudden, as the article says, they find themselves “at the vanguard of a national movement. In recent weeks, college students on dozens of campuses have demanded that university endowment funds rid themselves of coal, oil and gas stocks. The students see it as a tactic that could force climate change, barely discussed in the presidential campaign, back onto the national political agenda.”
The picture that accompanies the article comes from our Minneapolis roadshow last Friday night, and the article concisely lays out the demands and the strategy of the campaign. It’s precisely the boost we need. So please, go read it here: www.nyti.ms/SESrfr
We’re quickly getting traction, but we can get more if we have your help.
So, first things first: please email the article by clicking the “E-Mail” button on the New York Times website — if we can get it on the newspaper’s “most emailed list”, we can help make sure it goes as far as possible, as fast as possible.
For full instructions on how to email the article, click here: www.350.org/nyt
I sense that we, as in the peoples on this planet, are well into a period of such change that even by the end of 2013, a little over 50 weeks away, the precipice for humanity will be within sight. I hold out zero hope that any time soon our leaders and politicians will stop ‘playing games’ and focus on doing what’s right. The time for truth, for integrity, for sound debate is NOW!
The sharing of ideas, thoughts and emotions that this ‘virtual’ world of blogging offers (despite me regarding the word ‘blogging’ as ugly) is going to be the only tool, the only channel to carry sufficient weight and power for the wishes and desires of the ‘common man’ to live peacefully and safely to the end of this century and beyond!
I’m conscious that there have been a number of republications recently. Partly that’s because there has been a run of great articles that have gone down well with you, but also because the ‘task list’ arising from the move into our home in Merlin, Oregon continues to dominate our lives. Even before Mother Nature demonstrated that our bridge needed repairing!
So onto another republication of a TomDispatch special. But what a special. Here’s Tom’s introduction:
Let’s face it: climate change is getting scarier by the week. In this all-American year, record wildfires, record temperatures in the continental U.S., an endless summer, a fierce drought that stillwon’t go away, and Frankenstorm Sandy all descended on us. Globally, billion-dollar weather events are increasingly dime-a-dozen affairs, with a record 14 of them in 2012 so far. So is a linked phenomenon, the continuing rise in the volume of greenhouse gases, especially carbon dioxide, especially from burning fossil fuels, that get pumped into the atmosphere. The latest figures from 2011 indicate that those gases once again made an appearance in record amounts with no indication that abatement is anywhere on the horizon.
With new studies and more data, it seems, come ever more frightening projections of just how much the temperature of this planet is going to rise by 2100. After all, as Michael Klare, TomDispatch regular and author of the invaluable The Race for What’s Left, points out, the International Energy Agency’s latest study suggests a possible temperature rise by century’s end of 3.6 degrees Celsius. That should startle the imagination, involving as it would the transformation of this planet into something unrecognizably different from the one we all grew up on. And keep in mind that it’s by no means the top estimate for temperature disaster. A new World Bank report indicates that a rise of 4 degrees Celsius is possible by century’s end, a prospect that bank president Jim Yong Kim termed a “doomsday scenario.”
In the meantime, the most comprehensive study to date of how humans have affected the amount of carbon dioxide in the atmosphere predicts that the planet’s temperature could rise by an unimaginable 6 degrees Celsius by 2100. These days, it increasingly looks like we’ve entered the lottery from hell when it comes to Earth’s ultimate temperature — especially now that a recent report from the United Nations Environment Program suggests carbon in the atmosphere has increased by 20% since 2000 and that “there are few signs of global emissions falling.”
With this in mind, consider the latest “good news” reported (and widely hailed) in the world of fossil fuels, courtesy of Michael Klare. Tom
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World Energy Report 2012 The Good, the Bad, and the Really, Truly Ugly
By Michael T. Klare
Rarely does the release of a data-driven report on energy trends trigger front-page headlines around the world. That, however, is exactly what happened on November 12th when the prestigious Paris-based International Energy Agency(IEA) released this year’s edition of its World Energy Outlook. In the process, just about everyone missed its real news, which should have set off alarm bells across the planet.
Claiming that advances in drilling technology were producing an upsurge in North American energy output, World Energy Outlook predicted that the United States would overtake Saudi Arabia and Russia to become the planet’s leading oil producer by 2020. “North America is at the forefront of a sweeping transformation in oil and gas production that will affect all regions of the world,”declared IEA Executive Director Maria van der Hoeven in a widely quoted statement.
In the U.S.,the prediction of imminent supremacy in the oil-output sweepstakes was generally greeted with unabashed jubilation. “This is a remarkable change,”said John Larson of IHS, a corporate research firm. “It’s truly transformative. It’s fundamentally changing the energy outlook for this country.” Not only will this result in a diminished reliance on imported oil, he indicated, but also generate vast numbers of new jobs. “This is about jobs. You know, it’s about blue-collar jobs. These are good jobs.”
The editors of the Wall Street Journal were no less ecstatic. In an editorial with the eye-catching headline “Saudi America,” they lauded U.S. energy companies for bringing about a technological revolution, largely based on the utilization of hydraulic fracturing (“fracking”) to extract oil and gas from shale rock. That, they claimed, was what made a new mega-energy boom possible. “This is a real energy revolution,” the Journal noted, “even if it’s far from the renewable energy dreamland of so many government subsidies and mandates.”
Other commentaries were similarly focused on the U.S. outpacing Saudi Arabia and Russia, even if some questioned whether the benefits would be as great as advertised or obtainable at an acceptable cost to the environment.
While agreeing that the expected spurt in U.S. production is mostly “good news,”Michael A. Levi of the Council on Foreign Relations warned that gas prices will not drop significantly because oil is a global commodity and those prices are largely set by international market forces. “[T]he U.S. may be slightly more protected, but it doesn’t give you the energy independence some people claim,” he told the New York Times.
Some observers focused on whether increased output and job creation could possibly outweigh the harm that the exploitation of extreme energy resources like fracked oil or Canadian tar sands was sure to do to the environment. Daniel J. Weiss of the Center for American Progress, for example, warned of a growing threat to America’s water supply from poorly regulated fracking operations. “In addition, oil companies want to open up areas off the northern coast of Alaska in the Arctic Ocean, where they are not prepared to address a major oil blowout or spill like we had in the Gulf of Mexico.”
Such a focus certainly offered a timely reminder of how important oil remains to the American economy (and political culture), but it stole attention away from other aspects of the World Energy Report that were, in some cases, downright scary. Its portrait of our global energy future should have dampened enthusiasm everywhere, focusing as it did on an uncertain future energy supply, excessive reliance on fossil fuels, inadequate investment in renewables, and an increasingly hot, erratic, and dangerous climate. Here are some of the most worrisome takeaways from the report.
Shrinking World Oil Supply
Given the hullabaloo about rising energy production in the U.S., you would think that the IEA report was loaded with good news about the world’s future oil supply. No such luck. In fact, on a close reading anyone who has the slightest familiarity with world oil dynamics should shudder, as its overall emphasis is on decline and uncertainty.
Take U.S. oil production surpassing Saudi Arabia’s and Russia’s. Sounds great, doesn’t it? Here’s the catch: previous editions of the IEA report and theInternational Energy Outlook, its equivalent from the U.S. Department of Energy (DoE), rested their claims about a growing future global oil supply on the assumption that those two countries would far surpass U.S. output. Yet the U.S. will pull ahead of them in the 2020s only because, the IEA now asserts, their output is going to fall, not rise as previously assumed.
This is one hidden surprise in the report that’s gone unnoticed. According to the DoE’s 2011 projections, Saudi production was expected to rise to 13.9 million barrels per day in 2025, and Russian output to 12.2 million barrels, jointly providing much of the world’s added petroleum supply; the United States, in this calculation, would reach the 11.7 million barrel mark.
The IEA’s latest revision of those figures suggests that U.S. production will indeed rise, as expected, to about 11 million barrels per day in 2025, but that Saudi output will unexpectedly fall to about 10.6 million barrels and Russian to 9.7 million barrels. The U.S., that is, will essentially become number one by default. At best, then, the global oil supply is not going to grow appreciably — despite the IEA’s projection of a significant upswing in international demand.
But wait, suggests the IEA, there’s still one wild card hope out there: Iraq. Yes, Iraq. In the belief that the Iraqis will somehow overcome their sectarian differences, attain a high level of internal stability, establish a legal framework for oil production, and secure the necessary investment and technical support, the IEApredicts that its output will jump from 3.4 million barrels per day this year to 8 million barrels in 2035, adding an extra 4.6 million barrels to the global supply. In fact, claims the IEA, this gain would represent half the total increase in world oil production over the next 25 years. Certainly, stranger things have happened, but for the obvious reasons, it remains an implausible scenario.
Add all this together — declining output from Russia and Saudi Arabia, continuing strife in Iraq, uncertain results elsewhere — and you get insufficient oil in the 2020s and 2030s to meet anticipated world demand. From a global warming perspective that may be good news, but economically, without a massive increase in investment in alternate energy sources, the outlook is grim. You don’t know what bad times are until you don’t have enough energy to run the machinery of civilization. Assuggested by the IEA, “Much is riding on Iraq’s success… Without this supply growth from Iraq, oil markets would be set for difficult times.”
Continuing Reliance on Fossil Fuels
For all the talk of the need to increase reliance on renewable sources of energy, fossil fuels — coal, oil, and natural gas — will continue to provide most of the additional energy supplies needed to satisfy soaring world demand. “Taking all new developments and policies into account,” the IEA reported, “the world is still failing to put the global energy system onto a more sustainable path.” In fact, recent developments seem to favor greater fossil-fuel reliance.
In the United States, for instance, the increased extraction of oil and gas from shale formations has largely silenced calls for government investment in renewable technology. In its editorial on the IEA report, for example, the Wall Street Journal ridiculed such investment. It had, the Journal’s writers suggested, now become unnecessary due to the Saudi Arabian-style oil and gas boom to come. “Historians will one day marvel that so much political and financial capital was invested in a [failed] green-energy revolution at the very moment a fossil fuel revolution was aborning,” they declared.
One aspect of this energy “revolution” deserves special attention. The growing availability of cheap natural gas, thanks to hydro-fracking, has already reduced the use of coal as a fuel for electrical power plants in the United States. This would seem to be an obvious environmental plus, since gas produces less climate-altering carbon dioxide than does coal. Unfortunately, coal output and its use haven’t diminished: American producers have simply increased their coal exports to Asia and Europe. In fact, U.S. coal exports are expected to reach as high as 133 million tons in 2012, overtaking an export record set in 1981.
Despite its deleterious effects on the environment, coal remains popular in countries seeking to increase their electricity output and promote economic development. Shockingly, according to the IEA, it supplied nearly half of the increase in global energy consumption over the last decade, growing faster than renewables. And the agency predicts that coal will continue its rise in the decades ahead. The world’s top coal consumer, China, will burn ever more of it until 2020, when demand is finally expected to level off. India’s usage will rise without cessation, with that country overtaking the U.S. as the number two consumer around 2025.
In many regions, notes the IEA report, the continued dominance of fossil fuels is sustained by government policies. In the developing world, countries commonly subsidize energy consumption, selling transportation, cooking, and heating fuels at below-market rates. In this way, they hope to buffer their populations from rising commodity costs, and so protect their regimes from popular unrest. Cutting back on such subsidies can prove dangerous, as in Jordan where a recent government decision to raise fuel prices led to widespread riots and calls for the monarchy’s abolition. In 2011, such subsidies amounted to $523 billion globally, says the IEA, up almost 30% from 2010 and six times greater than subsidies for renewable energy.
No Hope for Averting Catastrophic Climate Change
Of all the findings in the 2012 edition of the World Energy Outlook, the one that merits the greatest international attention is the one that received the least. Even if governments take vigorous steps to curb greenhouse gas emissions, the report concluded, the continuing increase in fossil fuel consumption will result in “a long-term average global temperature increase of 3.6 degrees C.”
This should stop everyone in their tracks. Most scientists believe that an increase of 2 degrees Celsius is about all the planet can accommodate without unimaginably catastrophic consequences: sea-level increases that will wipe out many coastal cities, persistent droughts that will destroy farmland on which hundreds of millions of people depend for their survival, the collapse of vital ecosystems, and far more. An increase of 3.6 degrees C essentially suggests the end of human civilization as we know it.
To put this in context, human activity has already warmed the planet by about 0.8 degrees C — enough to produce severe droughts around the world, trigger or intensify intense storms like Hurricane Sandy, and drastically reduce the Arctic ice cap. “Given those impacts,” writes noted environmental author and activist Bill McKibben, “many scientists have come to think that two degrees is far too lenient a target.” Among those cited by McKibben is Kerry Emanuel of MIT, a leading authority on hurricanes. “Any number much above one degree involves a gamble,” Emanuel writes, “and the odds become less and less favorable as the temperature goes up.” Thomas Lovejoy, once the World Bank’s chief biodiversity adviser, puts it this way: “If we’re seeing what we’re seeing today at 0.8 degrees Celsius, two degrees is simply too much.”
At this point, it’s hard even to imagine what a planet that’s 3.6 degrees C hotter would be like, though some climate-change scholars and prophets — like former Vice President Al Gore in An Inconvenient Truth — have tried. In all likelihood, the Greenland and Antarctica ice sheets would melt entirely, raising sea levels by several dozen feet and completely inundating coastal cities like New York and Shanghai. Large parts of Africa, Central Asia, the Middle East, and the American Southwest would be rendered uninhabitable thanks to lack of water and desertification, while wildfires of a sort that we can’t imagine today would consume the parched forests of the temperate latitudes.
In a report that leads with the “good news” of impending U.S. oil supremacy, to calmly suggest that the world is headed for that 3.6 degree C mark is like placing a thermonuclear bomb in a gaudily-wrapped Christmas present. In fact, the “good news” is really the bad news: the energy industry’s ability to boost production of oil, coal, and natural gas in North America is feeding a global surge in demand for these commodities, ensuring ever higher levels of carbon emissions. As long as these trends persist — and the IEA report provides no evidence that they will be reversed in the coming years — we are all in a race to see who gets to the Apocalypse first.
Michael Klare is a professor of peace and world security studies at Hampshire College, a TomDispatch regular, and the author, most recently, ofThe Race for What’s Left (Metropolitan Books). A documentary movie based on his book Blood and Oil can be previewed and ordered at http://www.bloodandoilmovie.com. You can follow Klare on Facebook by clicking here.
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Why do I have this inner feeling that 2013 will be bringing some surprises!
Our good friend back in Payson, John Hurlburt, is often heard to close a conversation in response to a “Best wishes” with the saying “Good Lord willing and the creek don’t rise.”
Well for us the creek did rise last week-end!
So when I rang John a couple of days ago and asked him where the expression came from, he was quick to explain that it was a familiar ‘sign-off’ by Red Barber, a former sports broadcaster.
Walter Lanier “Red” Barber (February 17, 1908 – October 22, 1992) was an American sportscaster.
Barber, nicknamed “The Ol’ Redhead”, was primarily identified with radio broadcasts of Major League Baseball, calling play-by-play across four decades with the Cincinnati Reds (1934–38), Brooklyn Dodgers (1939–1953), and New York Yankees (1954–1966).
Like his fellow sports pioneer Mel Allen, Barber also gained a niche calling college and professional football in his primary market of New York City.
OK, that’s all for now – off to the shops to get in 10 days of supplies before the bridge is repaired, as reported here!
That pesky ‘law’ regarding the power of unintended consequences.
As many of you are aware, last week was an unusual format for Learning from Dogs in that the whole of the week was dedicated to republishing Dr. Samuel Alexander’s essay The Sufficiency Economy – Envisioning a Prosperous Way Down. If you missed that, the first chapter was a week ago today under the title of Where less is so much more.
Moving on. Many living in Northern California and South-West Oregon will have had a timely reminder that nature is tapping mankind on the shoulder in new and challenging ways. I’m referring to the massive storm that was featured in a recent Climate Crocks article that delivered over a foot of rainfall in recent days. Here in Southern Oregon we received over 10 inches! Hence the growing awareness that we have to do something!
So with those musings in mind, read the following essay written by Gail Tverberg of the website Our Finite World. Gail describes herself, thus:
I am an actuary interested in finite world issues – oil depletion, natural gas depletion, water shortages, and climate change. The financial system is also likely to be affected.
I’m very grateful to Gail for so promptly giving me written permission to republish her work. It is very relevant to all of us.
World leaders seem to have their minds made up regarding what will fix world CO2 emissions problems. Their list includes taxes on gasoline consumption, more general carbon taxes, cap and trade programs, increased efficiency in automobiles, greater focus on renewables, and more natural gas usage.
Unfortunately, we live in a world economy with constrained oil supply. Because of this, the chosen approaches have a tendency to backfire if some countries adopt them, and others do not. But even if everyone adopts them, it is not at all clear that they will provide the promised benefits.
Figure 1. Actual world carbon dioxide emissions from fossil fuels, as shown in BP’s 2012 Statistical Review of World Energy. Fitted line is expected trend in emissions, based on actual trend in emissions from 1987-1997, equal to about 1.0% per year.
The Kyoto Protocol was adopted in 1997. If emissions had risen at the average rate that they did during the 1987 to 1997 period (about 1% per year), emissions in 2011 would be 18% lower than they actually were. While there were many other things going on at the same time, the much higher rise in emissions in recent years is not an encouraging sign.
The standard fixes don’t work for several reasons:
1. In an oil-supply constrained world, if a few countries reduce their oil consumption, the big impact is to leave more oil for the countries that don’t. Oil price may drop a tiny amount, but on a world-wide basis, pretty much the same amount of oil will be extracted, and nearly all of it will be consumed.
2. Unless there is a high tax on imported products made with fossil fuels, the big impact of a carbon tax is to send manufacturing to countries without a carbon tax, such as China and India. These countries are likely to use a far higher proportion of coal in their manufacturing than OECD countries would, and this change will tend to increase world CO2 emissions. Such a change will also tend to raise the standard of living of citizens in the countries adding manufacturing, further raising emissions. This change will also tend to reduce the number of jobs available in OECD countries.
3. The only time when increasing natural gas usage will actually reduce carbon dioxide emissions is if it replaces coal consumption. Otherwise it adds to carbon emissions, but at a lower rate than other fossil fuels, relative to the energy provided.
4. Substitutes for oil, including renewable fuels, are ways of increasing consumption of coal and natural gas over what they would be in the absence of renewable fuels, because they act as add-ons to world oil supply, rather than as true substitutes for oil. Even in cases where they are theoretically more efficient, they still tend to raise carbon emissions in absolute terms, by raising the production of coal and natural gas needed to produce them.
5. Even using more biomass as fuel does not appear to be a solution. Recent work by noted scientists suggests that ramping up the use of biomass runs the risk of pushing the world past a climate change tipping point.
It is really unfortunate that the standard fixes work the way they do, because many of the proposed fixes do have good points. For example, if oil supply is limited, available oil can be shared far more equitably if people drive small fuel-efficient vehicles. The balance sheet of an oil importing nation looks better if citizens of that nation conserve oil. But we are kidding ourselves if we think these fixes will actually do much to solve the world’s CO2 emissions problem.
If we really want to reduce world CO2 emissions, we need to look at reducing world population, reducing world trade, and making more “essential” goods and services locally. It is doubtful that many countries will volunteer to use these approaches, however. It seems likely that Nature will ultimately provide its own solution, perhaps working through high oil prices and weaknesses in the world financial system.
Elastic Versus Inelastic Supply
It seems to me that many bad decisions have been made because many economists have missed the point that crude oil supply tends to be very inelastic, while other fuels are fairly elastic. Let me explain.
Elastic supply is the usual situation for most goods. Plenty of the product is available, if the price is high enough. If there is a shortage, prices rise, and in not too long a time, the market is well-supplied again. If supply is elastic, if you or I use less of it, ultimately less of the product is produced.
Coal and natural gas usually are considered to be elastic in their supply. To some extent, they are still “extract it as you need it” products. Supply of natural gas liquids (often grouped with crude oil, but acting more like a gas, so it is less suitable as a transportation fuel) is also fairly elastic.
Crude oil is the one product that is in quite short supply, on a world-wide basis. Its supply doesn’t seem to increase by more than a tiny percentage, no matter how high the price rises. This is a situation of inelastic supply.
Figure 2. World crude oil production (including condensate) based primarily on US Energy Information Administration data, with trend lines fitted by the author.
Even though oil prices have been very high since 2005 (shown in Figure 3, below), the amount of crude oil has increased by only 0.1% per year (Figure 2, above).
Figure 3. Historical average annual oil prices, (“Brent” or equivalent) in 2011$, from BP’s 2012 Statistical Review of World Energy.
In the case of oil, both supply and demand are quite inelastic. No matter how high the price, demand for oil doesn’t drop back by much. No matter how high the price of oil, world supply doesn’t rise very much, either.1
In a situation of inelastic supply, the usual actions a person might take appear to work when viewed on a local basis, but backfire on a world basis, if not everyone participates. When one country tries to conserve crude oil (whether through a carbon tax, gasoline tax, or higher automobile mileage requirement), it may reduce its own consumption, but there are still plenty of other buyers in the market for the oil that was saved. So the oil gets used by someone else, perhaps at a slightly lower price. World oil production remains virtually unchanged. Thus, a reduction in oil usage by an OECD country can translate to more oil consumption by China or India, and ultimately more development of all types by those countries.
Adding Substitutes Adds to Carbon Emissions
If we don’t have enough crude oil, one approach is to create substitutes. Because crude oil supply is inelastic, though, these substitutes aren’t really substitutes, though. They are “add ons” to world oil supply, and this is one source of our problem with increasing world emissions.
What do we use to make the substitutes? Basically, natural gas and coal, and to a limited extent oil (because we can’t avoid using oil). The catch is, that to make the substitutes, we need to burn natural gas and coal more quickly than we would, if we didn’t make the oil substitutes. Since the supply of coal and natural gas is elastic, it is possible to pull them out of the ground more quickly. Thus, making the substitutes tends to increase carbon dioxide emissions over what they would have been, if we had never come up with the idea of substitutes.
The increased use of coal and natural gas is pretty clear, if a person thinks about coal-to-liquids or gas-to-liquids. Here, we need to first build the plants used in production, and then with each barrel of substitute made, we need to use more natural gas or coal. So it is very clear that we are extracting a lot of additional coal and natural gas, to make a relatively smaller amount of oil substitute. There is often a substantial need for water to make the process work as well, adding another stress on the system.
But the same issue comes up with biofuels, and with other renewables. These too, are add-ons to the world oil supply, not substitutes. While theoretically they might produce energy with less CO2 per unit than fossil fuel systems, in absolute terms they lead to natural gas and coal being pulled out of the ground more quickly to be used in making fertilizer, electricity, concrete, and other inputs to renewables.2
Carbon Taxes and Competitiveness
Each country competes with others in the world market place. Adding a carbon tax makes products made by the local company less competitive in the world marketplace. It also signals to potential coal users that the countries adopting the carbon taxes are willing to a leave a greater proportion of world coal exports to those who are not adopting the tax, thus helping to keep the cost of imported coal down.
Asian countries already have a competitive edge over OECD countries in terms of lower wages and lower fuel costs (because of their heavy coal mix), when it comes to manufacturing. Adding a carbon tax tends to add to the Asian competitive edge. This tends to shift production offshore, and with it, jobs.
Figure 4. China’s energy consumption by source, based on BP’s Statistical Review of World Energy data.
China joined the World Trade Organization in 2001. Figure 4 shows clearly that its fuel consumption ramped up rapidly thereafter. It seems likely that the number of Chinese manufacturing jobs and spending on Chinese infrastructure increased at the same time.
Economists seem to have missed the serious worldwide deterioration in CO2 emissions in recent years by looking primarily at individual country indications, including CO2 emissions per unit of GDP. Unfortunately, this narrow view misses the big picture–that total CO2 emissions are rising, and that CO2 emissions relative to world GDP have stopped falling. (See my posts Is it really possible to decouple GDP growth from energy growth and Thoughts on why energy use and CO2 emissions are rising as fast as GDP. See also Figure 1 at the top of the post.)
Figure 5. Employment is the total number employed at non-farm labor as reported by the US Census Bureau. Energy consumption is the total amount of energy of all types consumed (oil, coal, natural gas, nuclear, wind, etc.), in British Thermal Units (Btu), as reported by the US Energy Information Administration.
There are several reasons why a connection between energy consumption and the number of jobs is to be expected:
(1) The job itself in almost every situation requires energy, even if it is only electricity to operate computers, and fuel to heat and light buildings.
(2) Equally importantly, the salaries that employees earn allow them to buy goods that require the use of energy, such as a car or house. (“Energy demand” is what people canafford; jobs allow “demand” to rise.)
(3) The lowest salaried people can be expected to spend the highest proportion of their salaries on energy-related services (such as food and gasoline for commuting). The wealthy spend their money on high priced goods and services, such as financial planning services and designer clothing that require much less energy per dollar of expenditure.
The thing I find concerning is the close timing between the ramp-up of Asian coal use and thus jobs using coal, and the drop-off of US employment as a percentage of US population, as illustrated in Figure 6 below. Arguably, the ramp up in world trade is just as important, but some aspects of programs that are intended to save CO2 emissions also seem to encourage world trade.
Figure 6. US Number Employed / Population, where US Number Employed is Total Non_Farm Workers from Current Employment Statistics of the Bureau of Labor Statistics and Population is US Resident Population from the US Census. 2012 is partial year estimate.
Of course, the US did not sign the Kyoto Protocol or enact a carbon tax, and it is its jobs that I show falling as a percentage of population. It is more that the CO2 solutions act as yet another way to encourage more international trade, and with it more “growth”, and more CO2.
Using More Biomass is Not a Fix Either
Burning more wood for fuel and creating “second generation” biofuels from biomass seems like a fix, until a person realizes that we are reaching limits there, as well.
In June 2012, twenty noted scientist published a paper in the journal Nature called Approaching a State Shift in the Earth’s Biosphere. This report indicates that humans have already converted as much as 43% of Earth’s land to urban or agricultural uses. In total, 20% to 40% of Earth’s primary productivity has been taken over by humans. The authors are concerned that we may now be reaching a tipping point leading to a state shift, because of loss of ecosystem services as use of biological products increases. With this state change would come a change in climate. Simulations indicate that this tipping point may occur when as little as 50% of land use is disturbed. This tipping point may be even lower, if world-wide synergies take place.
On Our Current Path – Lacking Good Solutions
While this list of problems relating to current proposed solutions is not complete, it gives a hint of the problems with reducing CO2 emissions using approaches suggested to date. There are many issues I have not covered.
While the problems noted in these articles are probably solvable, the cost of these solutions has not been built into energy balance analyses. Energy balances (or EROEI estimates) as currently reported do not vary with the proportion of intermittent renewables added to the grid. If energy balance analyses were adjusted to reflect the high cost of adding an increasing proportion of wind or solar PV to the grid, they would likely show a rapidly declining energy balance, above a certain threshold. This would indicate that while adding a little intermittent renewables (as we have done to date) can be a partial solution, adding a lot is likely to have serious cost and energy balance issues.
Another issue that is difficult to deal with is the fact that we are not dealing with a temporary problem with CO2 emissions. The idea is not to slow down the burning of fossil fuels, and burn more later; what we really need to do is to leave unburned fossil fuels in the ground for all time. This is a problem, because there is no way that we can impose our will on people living 10 or 50 years from now. The Maximum Power Principle of H. T. Odum would seem to indicate that any species will make use of whatever energy sources are available to it, to the extent that it can. Even if we temporarily defeat this tendency with respect to humans’ use of fossil fuels, I don’t see any way that we can defeat this tendency for the long term.
Considering all of these issues, it does not appear that most of the “standard” solutions will really work.3 What other options do we have?
Nature’s Solution
The Earth has been handling the problem of shifting conditions for over 4 billion years. The earth is a finite system. Nature provides that finite systems, such as the Earth, will cycle to new states of equilibrium over time, as conditions change. While we would like to defeat Earth’s tendency in this regard, it is not at all clear that we can. Part of this cycling to a new state is likely to be a change in climate.
A state change is a cause for concern to humans, but not necessarily to the Earth itself. The Earth has moved from state to state many times in its existence, and will continue to do so in the future. The changes will bring the Earth back into a new equilibrium. For example, if CO2 levels are high, species that can make use of higher CO2 levels (such as plants) are likely to become dominant, rather than humans.
Exactly how this state change might occur is subject to different views. One view is that changing CO2 levels will be a primary driver. The Nature article referenced previously suggested that increased disturbance of natural ecosystems (as with greater use of biomass) might force a state change. My personal view is that a financial collapse related to high oil price may be part of Nature’s approach to moving to a new state. It could bring about a reduction in world trade, a scale back in CO2 emissions, and a general contraction of human systems.4
However the change takes place, it could be abrupt. It will not be to many people’s liking, since most will not be prepared for it.
Steps That Might Work to Slow CO2 Emissions
It would be convenient if we could slow CO2 emissions by working to produce energy with less CO2. This option does not seem to be working well though, so I would argue that we need to work in a different direction: toward reducing humans’ need for external energy. In order to do this, I would suggest two major steps:
(1) Reduce the world’s population, through one-child policies and universal access to family planning services. This step is necessary because rising population adds to demand. If we are to reduce demand, lower population needs to play a role.
(2) Change our emphasis to producing essential goods locally, rather than outsourcing them to parts of the world that are likely use coal to produce them. I would suggest starting with food, water, and clothing, and the supply chains necessary to produce these items.
Changing our emphasis to producing essential goods locally will have a multiple benefits. It will (a) add local jobs, and (b) lead to less worldwide growth in coal usage, (c) save on transport fuel, and (d) add protection against the adverse impact of declining world oil supply, if this should happen in the not too distant future. It should also help reduce CO2 emissions. The costs of goods will likely be higher using this approach, leading to less “stuff” per person, but this, too, is part of reaching reduced CO2 emissions.
It is hard to see that the steps outlined above would be acceptable to world leaders or to the majority of world population. Thus, I am afraid we will end up falling back on Nature’s plan, discussed above.
Notes:
[1] Michael Kumhof and Dirk Muir recently prepared a model of oil supply and demand (IMF working paper: Oil and the World Economy: Some Possible Futures). In it, they assume a long run price-elasticity of oil supply of 0.03, and remark that a paper by Benes and others indicates a range of 0.005 to 0.02 for this variable. The long term price elasticity of oil demand is assumed to be .08 in the Kumhof and Muir analysis.
[2] I would argue that standard EROEI measurements are defined too narrowly to give a true measure of the amount of energy used in making a particular substitute. For example, EROEI measures do not consider the energy costs associated with labor (even though workers spend their salaries on clothing, and commuting costs, and many other good and services that use fossil fuels), or with financing costs, or of indirect impacts like wear and tear on the roads by transporting corn for biofuel.
Other types of analysis have ways of dealing with this known shortfall. For example, when the number of jobs that a new employer can be expected to add to a community is evaluated, the usual approach seems to be to take the number of jobs that can be directly counted and multiply by three, to estimate the full impact. I would argue that with substitutes, some similar adjustment is needed. This adjustment which would act to increase the energy use associated with renewables, and reduce the EROEI. For example, the adjustment might divide directly calculated EROEI by three.
A calculation of the true net benefit of renewables also needs to recognize that nearly the full energy cost is paid up front, and only over time is recovered in energy production. When renewable production is growing rapidly, society tends to be in a long-term deficit position. Typically, it is only as growth slows that society reaches as net-positive energy position.
[3] I obviously have not covered all potential solutions. Nuclear power is sometimes mentioned, as is space solar power. There are new solutions being proposed regularly. Even if these solutions would work, ramping them up would take time and require use of fossil fuels, so it is wise to consider other options as well.
[4] The way that limited oil supply could interfere with world trade is as follows: High oil prices cause consumers to cut back on discretionary goods. This leads to layoffs in discretionary sectors of the economy, such as vacation travel. It also leads to secondary effects, such as debt defaults and lower housing prices. The financial effects “concentrate up” to governments of oil importing nations, because they receive less tax revenue from laid-off workers at the same time that they pay out more in unemployment benefits, stimulus, and bank bailouts. (We are already at this point.)
Eventually, countries will find that deficit spending is spiraling out of control. If countries raise taxes and cut benefits, this is likely to lead to more lay offs and debt defaults. One possible outcome is that citizens will become increasingly unhappy, and replace governments with new governments that repudiate old debt. The new governments may have difficulty establishing financial relationships with other governments, given that most are major debt defaulters. Such issues could reduce world trade substantially. With the drop of world trade would come much more limited ability to maintain our current systems, such as electricity and long distance transport.
oooOOOooo
Reminds me of that old saying, “The best laid plans of mice and men …” Or as Robbie Burns wrote in 1785,
But Mousie, thou art no thy lane,
In proving foresight may be vain:
The best-laid schemes o’ mice an’ men
Gang aft agley,
An’ lea’e us nought but grief an’ pain,
For promis’d joy!
”
Learning from Dogs 