What's Next: Dispatches on the Future of Science

What's Next: Dispatches on the Future of Science

by Max Brockman
What's Next: Dispatches on the Future of Science

What's Next: Dispatches on the Future of Science

by Max Brockman

eBook

$13.99 

Available on Compatible NOOK Devices and the free NOOK Apps.
WANT A NOOK?  Explore Now

Related collections and offers


Overview

Will climate change force a massive human migration to the Northern Rim?

How does our sense of morality arise from the structure of the brain?

What does the latest research in language acquisition tells us about the role of culture in the way we think?

What does current neurological research tell us about the nature of time?

This wide-ranging collection of never-before-published essays offers the very latest insights into the daunting scientific questions of our time. Its contributors—some of the most brilliant young scientists working today—provide not only an introduction to their cutting-edge research, but discuss the social, ethical, and philosophical ramifications of their work. With essays covering fields as diverse as astrophysics, paleoanthropology, climatology, and neuroscience, What's Next? is a lucid and informed guide to the new frontiers of science.

Product Details

ISBN-13: 9780307456656
Publisher: Knopf Doubleday Publishing Group
Publication date: 05/26/2009
Sold by: Random House
Format: eBook
Pages: 256
File size: 2 MB

About the Author

Max Brockman is an agent at Brockman, Inc. a literary and software agency. He lives in New York City.

Read an Excerpt

Will We Decamp for the Northern Rim?

Laurence C. Smith

Like so many other cultural shifts, it gathered long, then broke quickly. At last the world--including a majority of people in the United States--has acknowledged that global warming is real.

Changing the public's opinion was not easy. It took the work of thousands of scientists, painstakingly accumulated over more than three decades. Their findings were then steadily communicated to the world through massive synthesis reports in 1990, 1995, 2001, and 2007 by the Intergovernmental Panel on Climate Change (IPCC), displaying a level of organization unprecedented in science. These reports document the evidence, now overwhelming, of our new man-made climate.

Pivotal to the public opinion shift were ardent "Third Culture" scientists--among them James Hansen, at NASA's Goddard Institute for Space Studies; Lonnie Thompson, at Ohio State University; Richard Alley, at Pennsylvania State University; and Mark Serreze, at the University of Colorado--with a talent for grasping the most significant discoveries and channeling them to the public through books, interviews, YouTube, and popular magazines like Rolling Stone. These efforts at

public outreach represented a significant shift in the culture of science. As a graduate student in the mid-1990s, I witnessed the widespread, if subtle, scorn directed at the remarkable astronomer and writer Carl Sagan by his professional colleagues for his efforts in publicizing his scientific work. But today, and especially in climate-change science, public outreach is part of the job and a cause for appreciation and emulation by scientific colleagues.

Other events, largely unforeseen, also figured prominently in converting the public. The graphic horrors wrought by Ka_trina--regardless of that hurricane's cause--sowed national unease via millions of televisions and computer screens. The failed presidential bid of Al Gore in 2000 freed him to film An Inconvenient Truth in 2006--and, together with the IPCC, he won the 2007 Nobel Peace Prize. The 2006 decision of Wal-Mart to embrace and aggressively market green technology reached millions more, including many who wouldn't be caught dead at an Al Gore movie. In my home state of California, Republican governor Arnold Schwarzenegger asserted, "The [climate] debate is over"--and from a scientific and public-opinion standpoint, he was right.

The burden of proof is past, so what's next? The debate has, if anything, intensified; the line of scrimmage has simply moved downfield. Questions like "Is it real?" and "Is it our fault?" have morphed into "What will happen?" "Where?" "How fast?" and "What are we going to do about it?" Science may have led us to these questions, but our answers will reverberate far beyond science. At stake is no less than the global pattern of human settlement in the twenty-first century.

So, what will happen? Here is what we know currently: First, the warming is just revving up. It is 90 percent certain that continued greenhouse gas emissions at or above the current rates will induce far greater climate change in the twenty-first century than we've yet experienced.1 In every plausible population-growth or greenhouse-gas-emission scenario for the next century (barring some as-yet-undiscovered nonlinearity in the climate system), basic physics dictates that Earth's climate must continue to warm, with global average temperatures rising between 1.8¡C and 4.0¡C (3.2¡F and 7.0¡F) by the end of this century.2 How high we go depends on how much carbon we choose to load into the atmosphere; the lower value is the IPCC's optimistic estimate, which assumes a stabilized global population and the adoption of clean-energy technology. The high value is the estimate based on unabated dependence on fossil fuels.

If those temperature changes don't sound large to you, they should. Even the most optimistic number (1.8 ¡C) triples the warming we had in the twentieth century. Furthermore, thanks to the long life of greenhouse gases in the atmosphere and the sluggish response of the world's oceans, we are already "locked in" to much of that warming, regardless of what policy changes we enact. The global temperature increase to 2030 is all but committed, and even if we could cap greenhouse gas emissions immediately at 2000 levels, we would still experience about half the projected warming by midcentury. But over the long run, policy changes will have a large impact: only 20 percent of the projected 2100 temperature rise is currently locked in. At this point, it is still possible--through aggressive societal action--to blunt the warming. But we cannot stop it.

The hotter temperatures will increase evaporation, drying soils and raising the frequency of drought, especially in two broad belts from 20¡ to 40¡ north and south latitudes--that is, in both hemispheres. The number of extremely dry days will increase sharply in the southwestern United States, southern and eastern Europe, southern Africa, and eastern South America.3 Water vapor in the air will also increase, in obedience to the Clausius-Clapeyron equation, which states that the water-holding capacity of the atmosphere must go up 7 percent for every 1¡C rise. Because water vapor fuels weather systems, the frequency of extreme precipitation events--and therefore floods--will go up right along with it. Deadly, power-sucking heat waves--like the killers in France in 2003, the United States in 2006, and Japan in 2007--will happen more often. Sea level will continue to rise (it's rising now, around three millimeters per year), the only uncertainty being exactly how fast and how high. Low-elevation coastal areas, including Florida, the Netherlands, island nations, and impoverished Bangladesh, will face inundation in the coming decades.

If you saw An Inconvenient Truth or read climate-change stories in the press, you already know most of this bad news. Alongside more speculative notions about hurricanes and wildfires, they are the most widely reported scientific predictions for the twenty-first century. However, even these are not the starkest forecasts of our climate models. The most robust changes will sweep across the northern high latitudes, starting at about the 45th parallel running through the northern United States, Canada, Russia, and Europe. North of that line, the climate changes will be unrivaled on Earth. Temperatures will rise at nearly double the global average--driven mostly by milder winters--and precipitation will increase sharply as well.

Already the impacts are obvious in the extreme north, where melting Arctic sea ice, drowning polar bears, and forlorn Inuit hunters are by now iconic images of global warming. The rapidity and severity of Arctic warming is truly dramatic. However, the Arctic, a relatively small, thinly populated region, will always be marginal in terms of its raw social and economic impact on the rest of us. The greater story lies to the south, penetrating deeply into the "Northern Rim," a vast zone of economically significant territory and adjacent ocean owned by the United States, Canada, Denmark, Iceland, Sweden, Norway, Finland, and Russia. As in the Arctic, climate change there has already begun. This zone--which constitutes almost 30 percent of the Earth's land area and is home to its largest remaining forests, its greatest untouched mineral, water, and energy reserves, and a (growing) population of almost 100 million people--will undergo one of the most profound biophysical and social expansions of this century.

There are a number of reasons why these northern latitudes have never been a magnet to southern settlers. Sunlight is strongly seasonal. In the extreme north and within deep continental _interiors, permafrost (permanently frozen ground) ratchets up construction costs and keeps soils waterlogged, making the land a moist heaven to billions of mosquitoes. Growing seasons are short, agricultural yields are low, and large tracts of land are mountainous. But the single greatest inhibitor to southern forms of life--plant, animal, and human--is the mind-numbing, crushing cold of winter. Summers are warm, even hot (there are air conditioners throughout the Northern Rim), but winters are a frost-panting monster. Deciduous trees crackle and die, frogs freeze solid in their mud beds, and at -40¡ (the Celsius and Fahrenheit scales converge at this number), compressors fail, steel shatters, and manual work becomes impossible.4

"Minus-forty" is feared and hated by everyone who has experienced it. The shutdown of human activity it mandates has been described to me by people from all around the Northern Rim--restaurateurs in Whitehorse, Cree trappers in Alberta, truck drivers in Russia, retirees in Helsinki. And while they express otherwise mixed opinions on the various problems and opportunities presented by recent warming, the one sentiment they all share is utter relief that minus-forties are becoming increasingly rare.

By defanging winter's bite, will global warming spawn new human societies around the Northern Rim? The idea is not so far-fetched: According to an August 8, 2007, article in the Wall Street Journal, speculative real estate buying in Newfoundland and Labrador rose sharply in 2007. Likewise, the Financial Times of December 1, 2007, reports rising real estate markets across northern Norway, Sweden, and Russia. But before you rush to Realtor.com to scope out acreages near Anchorage or Winnipeg, listen up: yes, there will be growth, but it won't happen everywhere. Like human expansion over the millennia, its direction will be shaped by the choices we make and the previous imprint of history and geography.

In his book Collapse, my UCLA colleague Jared Diamond scours human history to identify five prime factors that determine the likelihood that an existing society will fail: environmental damage, loss of trade partners, hostile neighbors, climate change, and how a society chooses to respond to its environmental problems. Any of these, alone or in combination, can trigger a society's collapse. Turning the question around, what makes a new society likely to successfully establish itself? First and foremost is economic opportunity, followed by environmental suitability, opportunities for investment and trade (implicit in this is military security and the consistent rule of law, without which investors balk and trade will not be stable), friendly neighbors, and willing settlers.

At present, these requirements are met only to varying degrees around the Northern Rim. Abundant economic opportunities exist in the form of commodities--fossil fuels, minerals, fish, and timber--and, indeed, their exploitation currently generates most of the Northern Rim's gross domestic product, the second contributor being government services. The neighbors are generally friendly; relative to the rest of the world, all eight Northern Rim nations have low internal unrest and share amicable borders--though Finland frets over its long border with Russia, and Russia worries about the United States and (especially) China on its thinly populated eastern flanks. Nonetheless, there have been no serious military incursions among the eight countries since World War II. Seven of them (Russia is the exception) enjoy the most stable political systems and rule of law in the world.

That leaves environmental suitability, trade, and settlers. It seems likely that climate warming will blunt the most significant environmental limitation--brutal winters--currently restricting human expansion in the Northern Rim. The warming will also ameliorate other problems, such as the short growing season, and create new ones, such as pest infestations, but these are secondary to the impact of milder winters. So climate change, one of five key factors known to collapse past societies, will actually engender them in these northern latitudes.

Still remaining are trade and settlers. All else in place, these factors depend mainly on markets, infrastructure, and demographic trends. While commodity prices are famously volatile, over the long haul (this century and the next, for example), it's a safe bet that the world's demand for water, minerals, energy, food, and timber will remain high. But demand per se does not create trade; there must also be infrastructure, without which commodities cannot get to markets, and settlers, without which there is no labor. And sufficient settlement requires domestic population growth, immigration, or both. Since strong contrasts in both infrastructure and demographic trends exist around the Northern Rim today, I expect them to shape the geographical pattern of northern human expansion. Unless, that is, we jolt the system somehow--which is exactly what we did twice in the last century, which led to the geographical contrasts in the first place.

The Northern Rim has long been _resource rich and _population _poor, an irresistible siren call to its central governments. Over the years, their efforts to increase infrastructure, population, and economies have been motivated by different ideologies and have had mixed results. Also, their treatment of aboriginals has varied hugely, with U.S. and Canadian groups faring best in recent years, followed by those in Scandinavia and lastly Russia. But all this pales in comparison with two enormous choices made in the twentieth century--choices that utterly transformed the footprint of humanity in the Northern Rim. They were the U.S. Army's decision to occupy Canada during World War II and Joseph Stalin's decision to create the Gulag, a string of forced-labor camps and exile towns across Siberia, between 1929 and 1953.

The underlying motivation for Stalin's murderous prison-camp system ran far deeper than the silencing of political malcontents. It was nothing less than a forced settlement of his country's remote territories--then sparsely occupied by ab_originals--with ethnic Russians. The Gulag was responsible for some of the worst atrocities of modern history, including countless deaths from starvation, exposure, exhaustion, and outright murder. But as a forced-settlement tool, the program was a resounding success. By the early 1950s, the camp population stood at 2.5 million people, most of them political exiles or people condemned for minor crimes.5 They labored in mines, cut timber, and built roads, railroads, and factories. If they _survived their sentences, ex-prisoners were legally prohibited from returning home. The towns grew huge, and by the end of the 1980s they were major cities, entrenched across some of the coldest terrain on Earth: Novosibirsk, Omsk, Yekaterinburg, Khabarovsk, Chelyabinsk, Krasnoyarsk, Noril'sk, Vorkuta. Mother Russia had urbanized Siberia.

Today the future of these cities lies in doubt. Their locations are arbitrary, selected more for quaint socialist ideals, such as taming nature and Engel's dictum (the idea that industry should be uniformly distributed across a country), than for the pragmatic requirements of economic viability. They exist in places that don't make sense: in harsh environments, at long distances from one another and from trading partners, precariously linked by absurdly stretched infrastructure that requires deep subsidization from Moscow. The burden socialist plan_ners placed on the Soviet economy by founding these cities in such inhospitable locations was so great that in their book The_Siberian Curse, Fiona Hill and Clifford Gaddy argue that "the cost of the cold" deeply saddled the Soviet economy and helped bring down the USSR in 1991.

After the Soviet collapse, the subsidies disappeared. Throughout the 1990s, the giant Siberian cities emptied out faster than Detroit in a bad layoff year. Today there are some signs of population stabilization, and limited prosperity is trickling back with high oil prices. A second, wiser attempt at massive infrastructure establishment in Siberia may well occur in this century, as Russia and China eye its vast natural wealth. There are already early indications of this: Vladimir Putin has officially opened a 6,200-mile highway between Moscow and Vladivostok--the longest highway in the world--and Russian military scholars have floated the idea of a "free economic zone" in Siberia's Far East, opening up the region's vast timber reserves to development with Chinese capital. But the population continues to drop, among ethnic Russians and aboriginals alike--a decrease compounded by high mortality, suicides, and grinding poverty.

Table of Contents

Max Brockman: Preface

Laurence C. Smith: Will We Decamp for the Northern Rim?
At stake is no less than the global pattern of human settlement in the twenty-first century.

Christian Keysers: Mirror Neurons: Are We Ethical by Nature?
Evolution has equipped our brains with circuits that enable us to experience what other individuals do and feel.

Nick Bostrom: How to Enhance Human Beings
Given our rudimentary understanding of the human organism, particularly the brain, how can we hope to enhance such a system? It would amount to outdoing evolution. . . .

Sean Carroll: Our Place in an Unnatural Universe
The early universe is hot and dense; the late universe is cold and dilute. Well . . . why is it like that? The truth is, we have no idea.

Stephon H. S. Alexander: Just What Is Dark Energy?
Dark energy, itself directly unobservable, is the most bewildering substance known, the only “stuff” that acts both on subatomic scales and across the largest distances in the cosmos.

Sarah-Jayne Blakemore: Development of the Social Brain in Adolescence
Using modern brain-imaging techniques, scientists are discovering that the human brain does indeed change well beyond early childhood.

Jason P. Mitchell:Watching Minds Interact
Perhaps the least anticipated contribution of brain imaging to psychological science has been a sudden appreciation for the centrality of social thought to the human mental repertoire.

Matthew D. Lieberman: What Makes Big Ideas Sticky?
Big Ideas sometimes match the structure and function of the human brain such that the brain causes us to see the world in ways that make it virtually impossible not to believe them.

Joshua D. Greene: Fruit Flies of the Moral Mind
People often speak of a “moral faculty” or a “moral sense,” suggesting that moral judgment is a unified phenomenon, but recent advances in the scientific study of moral judgment paint a very different picture.

Lera Boroditsky: How Does Our Language Shape the Way We Think?
Language is a uniquely human gift, central to our experience of being human. Appreciating its role in constructing our mental lives brings us one step closer to understanding the very nature of humanity.

Sam Cooke: Memory Enhancement, Memory Erasure: The Future of Our Past
Once we come to understand how our memories are formed, stored, and recalled within the brain, we may be able to manipulate them—to shape our own stories. Our past—or at least our recollection of our past—may become a matter of choice.
N
Deena Skolnick Weisberg: The Vital Importance of Imagination
One of the main ways in which both adults and children learn about the world around them is by asking “What if?” using their imagination to think about what might have happened in the past or what might happen in the future. Far from being used only for childhood games or daydreams, this ability to get outside of reality can have profound effects on our interactions with reality.

David M. Eagleman: Brain Time
The days of thinking of time as a river—evenly flowing, always advancing—are over. Time perception, just like vision, is a construction of the brain and is shockingly easy to manipulate experimentally.

Vanessa Woods and Brian Hare: Out of Our Minds: How Did Homo sapiens Come Down from the Trees, and Why Did No One Follow?
In the six million years since hominids split from the evolutionary ancestor we share with chimpanzees and bonobos, something happened to our brains that allowed us to become master cooperators, accumulate knowledge at a rapid rate, and manipulate tools to colonize almost every corner of the planet.

Nathan Wolfe: The Aliens Among Us
While viruses have to infect cellular forms of life in order to complete their life cycles, this does not mean that causing devastation is their destiny. The existing equilibrium of our planet is dependent on the actions of the viral world, and its elimination would have profound consequences.

Seirian Sumner: How Did the Social Insects Become Social?
We would like to know what the conditions and selection pressures were that tipped the ancestors of the eusocial insects over the ledge and down toward eusociality.

Katerina Harvati: Extinction and the Evolution of Humankind
It is now clear that humans (whether fossil or living) are not immune from biological forces and that extinction was (and, indeed, is) a distinct possibility.

Gavin Schmidt: Why Hasn’t Specialization Led to the Balkanization of Science?
Even as scientific output has increased exponentially, concerns have been raised that growing specialization will end by making it impossible for scientists in different fields to communicate, let alone collaborate.

Acknowledgments
From the B&N Reads Blog

Customer Reviews