Whole Earth Discipline
Page 35
The Greens and Turquoises can divide up what there is to be done and still be overworked. If they maintain an ongoing, mutually respectful debate, that will help each camp critique the other’s projects usefully, and they’ll also know when to collaborate for focused effectiveness. (If they define themselves in partisan opposition to each other, then all is lost.)
While Greens paint the cities white and expand mass transit, pronatal Turqs work to make cities a better place for kids than the suburbs—whole neighborhoods (maybe whole high-rises) where children can walk safely to superb schools.
While Blue-Greens push for nuclear microreactors and lobby for serious fusion research, Greens hammer away on a storage technology to make wind and solar viable sources of baseload power.
While Greens ensure that the heritage of landrace variety in agricultural plants and animals is preserved, Turquoises add to that variety through genetically engineered organisms with highly specific talents and figure out how to turn algae directly into tasty food.
While Turqs restore diseased chestnut trees and extinct megafauna with engineered genomes, Greens restore carbon-absorbing tallgrass prairie and peat marshes and assemble continent-scale wildlife corridors.
To deal with climate change, while Greens pyrolize crop residue and enrich the soil with biochar, Turqueys dirty the stratosphere with sulfates. They both find ever more ingenious ways to cease using any form of combustion as a source of power.
While Greens worship Gaia, Turqs bargain with Gaia.
• The operative principle for all is what Danny Hillis calls the Golden Rule of Time: Do for the future what you’re grateful the past did for you. (Or what you wish the past had done for you.) That tells you the right thing to do. As for how to do it, heed some advice from old hands:
Naturalist Peter Warshall: “Take any position and ask: What do we want and love? Dream the dream of the perfect (not practical) results so you can see the vision clearly and with full passion. Then ask, What do we know? Put together the knowledge about the situation and what facts may be missing both about the actual topic and the players and power relationships involved. Finally, What will we accept? You don’t have to go public with your acceptance strategy, but it should be thought through.”
Programmer Paul Graham: “Find (a) simple solutions (b) to overlooked problems (c) that actually need to be solved, and (d) deliver them as informally as possible, (e) starting with a very crude version 1.0, then (f) iterating rapidly.” (Iterating rapidly is how squatters build cities and the Bradley sisters eliminate alien-invasive plants.)
Physicist Freeman Dyson: “A project is sustainable if it is cheap enough to be the first of a series continuing indefinitely into the future. A project is unsustainable if it is so expensive that it cannot be repeated without major political battles. A sustainable project marks the beginning of a new era. An unsustainable project marks the end of an old era.”
Most innovation comes from amateurs, who are free to be radical, and from scientists in academia, who are free to follow their curiosity. But then there’s a gap. It’s hard to develop radical ideas into something broadly practical, because commercial money and government money are obliged to be conservative, and academic money is limited to discovery. The best money for pursuing really radical ideas into experimental use comes from individual philanthropists (foundations tend to avoid risk). According to philanthropy consultant Katherine Fulton, only one in ten wealthy people are philanthropic; 98 percent of all wealth just sits on the sidelines. Will some of that prodigious lode of cash rise to the occasion of planetary urgency? It’s possible.
Governments will need encouragement to price carbon out of contention as an energy source. And governments should start running scenarios now on how they plan to deal with climate refugees.
• “It is the business of the future to be dangerous,” philosopher Alfred North Whitehead said. That may account for Jim Lovelock’s attitude. In this book, he is always the bearer of the bleakest news of a civilization in the process of unmaking itself, yet in person the ninety-year-old is cheerful. A reporter at the Guardian got him to explain why:Humanity is in a period exactly like 1938-9, he explains, when “we all knew something terrible was going to happen, but didn’t know what to do about it.” But once the second world war was under way, “everyone got excited, they loved the things they could do, it was one long holiday. . . . So when I think of the impending crisis now, I think in those terms. A sense of purpose—that’s what people want.”
The shift from dread to action is under way. The outcome is wholly uncertain. Though microbes still run the world, right now they could use a little help in tuning the atmosphere. Our efforts will be tiny compared to what they do but enormous for us.
Thank you for joining those efforts, if you do. In any case, thank you for joining this discourse. I owe you a summary:
Ecological balance is too important for sentiment. It requires science.
The health of natural infrastructure is too compromised for passivity. It requires engineering.
What we call natural and what we call human are inseparable. We live one life.
Live-linked footnotes for this chapter, along with updates, additions, and illustrations, may be found online at www.sbnotes.com.
AFTERWORD
MAY 2010...
An afterword blurs a book in time. My final draft of April 2009 is here made unfinal.
And what you have here is only a sample of the time smear I’m attempting with the online version of the book at www.sbnotes.com, where the text (much of it) dwells in a living thicket of its origins and implications. Instead of static footnotes there are live links to my sources, including some better ones that turned up after the writing. You should be able to follow my quotes upstream to the articles and Google Books pages they come from. There you can conduct your own version of my research and perhaps draw different conclusions. I continue to add updates in the margins of the text, along with pages of photographs, diagrams, and videos, plus the kind of additions that usually go in an appendix. I’ll try to maintain the service as long as it has traffic. Maybe all nonfiction books will soon offer such online immersive versions of their material.
What belongs in an afterword? I did promise in this book that I would change my mind as needed, and I can already report a couple of such veerings. Of course history that has moved on from what I described in 2009 should be indicated. And books have come along that expound some of my topics better than I; I wish I’d had them in hand before.
Start, as the book does, with climate. In December 2009, the UN Climate Change Conference in Copenhagen was undermined by a suspiciously sophisticated hack of emails among climatologists at the University of East Anglia, England. Once again, climate change deniers dominated the public discourse and prevented action on greenhouse gases. I responded with a New York Times op-ed titled “Four Sides to Every Story,” suggesting that it helps to distinguish four kinds of views about global warming according to whether they are driven mainly by ideology or by evidence. “Denialists” and “Skeptics” both have doubts about climate change, but only the science-based Skeptics change their opinions with changing evidence. Likewise, ideological “Calamatists” and scientific “Warners” are alarmed about climate, but only the Warners respond to contradictory evidence.
James Lovelock, for example, a Warner, has softened his sense of alarm about the pace of climate change. He is persuaded by “sensible skeptic” Garth Paltridge’s book The Climate Caper (2009) that climate scientists have become overly politicized, and a paper in Science by Kevin Trenberth, head of Climate Analysis at the U.S. National Center for Atmospheric Research, led Lovelock to conclude, “The solar energy is coming in but much of it is going to some unknown destination. Sea level rise shows the Earth is warming as expected, but surface temperatures do not rise as they should.” Something unknown appears to be slowing the rate of global warming.
In the first chapter of this book I emphasized the many unkno
wns in climate dynamics that could trigger “abrupt” climate change—positive feedbacks and tipping points. Let me add further current unknowns in the climate system that might drive the pace of warming slower or faster than we expect. Trenberth (and Lovelock) is puzzled by the “missing energy” in the global net energy budget. Also there is a large and mysterious sink of carbon that varies from year to year. That “missing carbon” might be absorbed by woody plants or by microbes in the ocean or soils. We don’t know yet, so we don’t know how to assist the process. Climatologist James Hansen deplores our lack of good data on aerosols, and thus the overall impact of “global dimming” is uncertain. We’re not sure yet whether an increase in clouds has a negative or positive feedback effect, and the same goes for the added moisture in the air that warming brings—it all depends on research that remains to be done on altitude effects. In other words, the progress of climate science is likely to keep on alternately terrifying and mollifying us till midcentury at least.
As Lovelock put it to me by email in May 2010:The plot thickens. We do not know when the heat will turn on.
The missing energy: Down welling would be intellectually satisfying, especially since it would probably require a corresponding upwelling of cold bottom water, which stays at 4 degrees C in the lower parts of the ocean. It would help explain the current cool spell.
The aerosols over East and South Asia could be a cause of global cooling. I discussed this in The Revenge of Gaia. The effect of clouds is difficult to distinguish from the aerosol effect.
Increased biotic uptake seems unlikely but could be an arctic surprise as more cool algal-rich water is exposed by melting surface ice.
Increased atmospheric moisture, especially in the upper troposphere and lower stratosphere, could have a large positive effect on heating. Do not forget that much of the water in the stratosphere comes from methane oxidation.
Richard Betts from the Hadley Centre was here yesterday and had the good news that their huge model that includes Gaia has just been turned on and after a year of tests and settling down should be giving results.
Apart from a few friends like Richard Betts my name is now mud in climate science circles for having dared to consort with sceptics. Amazing how tribal scientists are.
The take home message is that it is now even more unwise for government to spend heavily on renewable energy and other green dreams. Use the gain in time to prepare for sensible adaptation.
All that I would add to my city chapters may be found in two outstanding books published after mine. Kevin Kelly’s What Technology Wants (2010) can be read as a companion volume to Whole Earth Discipline, because he makes it inescapably clear that biophilia and technophilia are not contradictory, but both are part of one long continuity. “Cities are technological artifacts,” Kelly writes, “the largest technology we make.” Humanity pours into cities by the millions for the simple reason that, like all technology, cities offer more options.
A book by science journalist Fred Pearce, The Coming Population Crash: And Our Planet’s Surprising Future (2010), was full of revelations for me. He tracks the eugenicist agenda behind most population-control theory, the life-sapping depression in areas losing population (such as eastern Europe), the smart ambition of migrants, the room for growth in Africa, and the possibility that the permanent aging of society will be a boon.
Nuclear has the most news. President Obama shut down Yucca Mountain and assigned a blue ribbon committee to come up with a practical nuclear waste storage policy for the United States. One intriguing alternative being explored uses deep borehole technology developed by the oil and gas industry. At any reactor site you can drill a hole three miles deep, a foot and a half wide. Down there in the basement rock the water is heavily saline and never mixes with surface fresh water. You can drop spent fuel rods down the borehole, stack them up a mile deep, pour in some concrete, and forget about the whole thing.
Obama also committed $54 billion in loan guarantees to cover the building of up to ten new reactors to restart the industry in America. That settled the argument within the administration about expanding nuclear power. Outsiders like Al Gore and Amory Lovins lobbied against it, but pronuclear insiders like Energy Secretary Steven Chu and science adviser John Holdren prevailed. Also leaders in the Democratic Party, such as House Speaker Nancy Pelosi and energy bill coauthor John Kerry, pushed nuclear in new legislation. Republicans have always been pronuclear.
Amory Lovins attempted a preemptive strike on my nuclear chapter on the day of the book’s publication with a 20,000-word critique titled “Four Nuclear Myths: A Commentary on Stewart Brand’s Whole Earth Discipline and on Similar Writings,” plus a summary at Grist.org. You can download the paper from Rocky Mountain Institute. It suffers a bit because Lovins had not read the rest of the book, nor did he know there was a Web site with all of my source material. He rightly busts me for misspelling a name and for two misuses of technical terminology—corrected in this edition. The rest of his argument was the familiar Lovins deluge; I didn’t respond to it because I already had in the chapter. At the Nuclear Energy Institute blog David Bradish wrote a detailed countercritique of Lovins’s paper.
The one surprise was that Lovins did not address my material on microreactors—“small modular reactors,” or “SMRs,” as they’re called these days. Elsewhere, though, he dismissed them as “fundamentally a fantasy.” In March 2010 Secretary Chu wrote an op-ed for the Wall Street Journal promoting small reactors and noting, “In his 2011 budget request, President Obama requested $39 million for a new program specifically for small modular reactors.” A new player in the emerging industry is Babcock & Wilcox, builder of U.S. Navy reactors for half a century. The company is designing a 125-megawatt manufacturable light water reactor it calls “mPower.”
One new book does an expert job of shattering Lovinsesque hopes that a stringent program of conservation, wind, and solar is all we need to make our energy climate-safe. It is Sustainable Energy: Without the Hot Air (2009), by David MacKay (pronounced “ma-KIE”), who is a Cambridge physicist and chief scientist for Britain’s Department of Energy and Climate Change. The book provides ruthless analysis, winningly told and illustrated, of what it will take for Great Britain to reduce its greenhouse gas emissions enough to make a difference to climate. As in the analyses by his ally Saul Griffith, the needed measures are horrifying to contemplate in aggregate, but they can get the job done. A quote of his that has gone viral is, “I’m not trying to be pro-nuclear, I’m just pro-arithmetic.”
I owe to MacKay one of my changes of mind since finishing this book. On page 103 I’m pretty dismissive of “clean coal.” Over dinner MacKay persuaded me that coal will keep being burned by nearly everybody, especially China and India, because it is so cheap. Therefore we have to figure out a way to burn it cleanly, capturing the carbon dioxide and burying it, or bonding it into concrete, or whatever it takes. In that light, Al Gore’s expensive TV ads deriding clean coal are a public disservice.
In another shift, my fond hopes for space-based solar (page 81) have been dashed by Elon Musk, CEO of rocket-launching SpaceX and chairman of SolarCity. He informed me vehemently that even if access to orbit were free, the inefficiencies of energy collection and transmission rule space solar out as a viable source of baseload power on the ground.
In a final energy comeuppance, I came to regret leaving fusion out of my nuclear chapter. Like most, I figured it was too good to be possible—zero mining (the fuel is hydrogen), zero greenhouse gases, zero waste stream, zero meltdown capability, zero weaponization. Then I visited the National Ignition Facility at Lawrence Livermore National Laboratory in California. There a vast array of lasers aims to focus 500 terawatts of energy for a billionth of a second on a BB-sized target made of hydrogen isotopes and ignite it in a fusion reaction. Impressive early tests suggest that successful ignition could occur by 2011. From that point it might be as short as a decade to a working prototype of a 1-gigawatt fusion power plant.
/> There’s been significant news in biotech as well. The environmental and economic benefits of GE crops in the United States were confirmed by an authoritative 250-page study from the National Academy of Sciences. It reported that GE farmers have the advantage of lower costs, higher yields, and greater safety than non-GE farmers, and that significant environmental gains come from their use of less pesticides, less toxic herbicides, and especially from no-till farming enabled by herbicide-resistant GE crops.
The next generation of transgenic crops is now called “functional foods,” described as “any modified food or food ingredient that may provide a health benefit beyond that of the traditional nutrients it contains.” A Pew Research Center survey of current GE research noted that “food enhancements cover a wide range, including improved fatty acid profiles for more heart healthy food oils, improved protein content and quality for better human and animal nutrition, increased vitamin and mineral levels to overcome widespread nutrient deficiencies throughout the world, and reduction in anti-nutritional substances that diminish food quality and can be toxic.” Organic farmers should be allowed to grow those crops. If they can’t, they may be left with nothing but a diminishing nostalgia market of people willing to pay extra for less healthy food.
In a book called Hybrid: The History and Science of Plant Breeding (2009), by Noel Kingsbury, I found a story that belongs in this book, so I’ll add it here. Back in 1998 in India, while Mahyco-Monsanto was running test plots of Bt cotton, Vandana Shiva was denouncing the technology as “seeds of suicide, seeds of slavery, seeds of despair.” Meanwhile, Kingsbury writes:Farmers . . . were desperate to obtain cotton that would not fall victim to bollworm and to avoid the costs and dangers of using pesticides. . . . Seeds of the Bt cotton “escaped” from Mahyco-Monsanto’s test plots and were used to breed new “unofficial” Bt cotton varieties. . . .