With all due respect to McKibben’s vision, let me offer another
perspective on his (and our) Eaarth: as a powerful actor in its own
right and as an avenger, rather than simply victim.
Tomgram: Michael Klare, Avenging Planet
Last Monday, Yukio Edano, chief cabinet secretary, defended
the Japanese government’s response to the nuclear disaster at
Fukushima, insisting that the plant complex is in “a stable situation, relatively speaking.” That’s somewhat like the official description of 11,500 tons of water purposely dumped into the ocean waters off Fukushima as “low-level radioactive” or “lightly radioactive.” It is, of course, only “lightly” so in comparison
to the even more radioactive water being stored at the plant in its
place. But that’s the thing with descriptive words: they can leave so
much to the eye of the beholder -- and the Japanese government hasn’t been
significantly more eager than the Tokyo Electric Power Company (Tepco),
which runs the complex, to behold all that much when it comes to
Fukushima.
On Tuesday, the government finally raised
the Fukushima alert level on the International Nuclear Event scale from
5 to 7 -- “a major accident” -- the highest category possible, only
previously used for the 1986 Chernobyl nuclear disaster (which resulted
in a 15,000-square-mile
“dead zone” in the Ukraine). Though government officials rushed to
play down the Chernobyl comparison, a Tepco official offered this
ominously bet-hedging comment: “Our concern is that the amount of leakage could eventually reach that of Chernobyl or exceed it.”
In fact, on our punch-drunk planet, we’ve never seen anything like
what’s underway at Fukushima -- not one, but four adjacent nuclear
reactors, three of which seem to have suffered partial meltdowns,
and several containment pools for “spent” fuel (which, in terms of
radioactivity, is anything but spent) in various states of distress.
Meanwhile, talk about the weeks needed to bring the situation under
control has faded into perilous months, years, decades, even a century of cleanup and recovery. There is speculation that some of the core of at least one reactor has already
“leaked from its steel pressure vessel into the bottom of [its]
containment structure” -- and every action to bring the complex under
some kind of control only seems to create, or threatens to create, other unexpected problems (like that “lightly radioactive” water).
Meanwhile, amid further giant aftershocks from the 9.0 earthquake of March 11th (with possibly
years more of them to come), the Japanese government has been slowly
widening the 20-kilometer “evacuation zone” (recently described by a
visitor as an eerie “death zone... like an episode of Rod Serling’s Twilight Zone crossed with The Day After -- an apocalyptic vision of life in the nuclear age”) around the complex. Just this week, it began warning
pregnant women and children to stay out of certain areas up to 30
kilometers away from the plant. That’s not surprising, considering that
in a small number of soil tests taken outside that 30-kilometer zone
-- in one case 40 kilometers from Fukushima -- cesium-137 (half-life 30 years) has been found at levels that exceed
those which, at Chernobyl, forced residents to move away. Many of the
hundreds of thousands of Japanese who once lived in these areas (and if
things get worse, beyond them) may never go home.
Whatever happens at Fukushima, could there be a more striking warning
that we humans have been overreaching and that our planet has a way of
offering penalties for such hubris? And keep in mind, the Japanese
are hardly in this alone. After all, in the United States, at least
five nuclear reactors are situated in “in earthquake-prone seismic
zones,” according to a recent report, which doesn’t even include the Indian Point nuclear reactor built on an earthquake fault only 30 miles from downtown New York City, my hometown.
The Planet Strikes Back:
Why We Underestimate the Earth and Overestimate Ourselves
It’s not enough to think of Eaarth as an impotent casualty of
humanity’s predations. It is also a complex organic system with many
potent defenses against alien intervention -- defenses it is already
wielding to devastating effect when it comes to human societies. And
keep this in mind: we are only at the beginning of this process.
To grasp our present situation, however, it’s necessary to
distinguish between naturally recurring planetary disturbances and the
planetary responses to human intervention. Both need a fresh look, so
let’s start with what Earth has always been capable of before we turn to
the responses of Eaarth, the avenger.
Overestimating Ourselves
Our planet is a complex natural system, and like all such systems, it
is continually evolving. As that happens -- as continents drift apart,
as mountain ranges rise and fall, as climate patterns shift --
earthquakes, volcanoes, tsunamis, typhoons, prolonged droughts, and
other natural disturbances recur, even if on an irregular and
unpredictable basis.
Our
predecessors on the planet were deeply aware of this reality. After
all, ancient civilizations were repeatedly shaken, and in some cases
shattered, by such disturbances. For example, it is widely believed
that the ancient Minoan civilization of the eastern Mediterranean
collapsed following a powerful volcanic eruption
on the island of Thera (also called Santorini) in the mid-second
millennium BCE. Archaeological evidence suggests that many other
ancient civilizations were weakened or destroyed by intense earthquake
activity. In Apocalypse: Earthquakes, Archaeology, and the Wrath of God, Stanford
geophysicist Amos Nur and his co-author Dawn Burgess argue that Troy,
Mycenae, ancient Jericho, Tenochtitlan, and the Hittite empire may have
fallen in this manner.
Faced with recurring threats of earthquakes and volcanoes, many
ancient religions personified the forces of nature as gods and goddesses
and called for elaborate human rituals and sacrificial offerings to
appease these powerful deities. The ancient Greek sea-god Poseidon (Neptune to the Romans), also called “Earth-Shaker,” was thought to cause earthquakes when provoked or angry.
In more recent times, thinkers have tended to scoff at such primitive
notions and the gestures that went with them, suggesting instead that
science and technology -- the fruits of civilization -- offer more than
enough help to allow us to triumph over the Earth’s destructive forces.
This shift in consciousness has been impressively documented in Clive
Ponting’s 2007 volume, A New Green History of the World. Quoting
from influential thinkers of the post-Medieval world, he shows how
Europeans acquired a powerful conviction that humanity should and would
rule nature, not the other way around. The seventeenth century French
mathematician René Descartes,
for example, wrote of employing science and human knowledge so that “we
can… render ourselves the masters and possessors of nature.”
It’s possible that this growing sense of human control over nature
was enhanced by a period of a few hundred years in which there may have
been less than the usual number of civilization-threatening natural
disturbances. Over those centuries, modern Europe and North America,
the two centers of the Industrial Revolution, experienced nothing like
the Thera eruption of the Minoan era -- or, for that matter, anything
akin to the double whammy of the 9.0 earthquake and 50-foot-high tsunami
that struck Japan on March 11th. This relative immunity from such
perils was the context within which we created a highly complex,
technologically sophisticated civilization that largely takes for
granted human supremacy over nature on a seemingly quiescent planet.
But is this assessment accurate? Recent events, ranging from the floods that covered 20% of Pakistan and put huge swathes of Australia underwater to the drought-induced fires
that burned vast areas of Russia, suggest otherwise. In the past few
years, the planet has been struck by a spate of major natural
disturbances, including the recent earthquake-tsunami disaster in Japan
(and its many powerful aftershocks), the January 2010 earthquake in Haiti, the February 2010 earthquake in Chile, the February 2011 earthquake in Christchurch, New Zealand, the March 2011 earthquake in Burma, and the devastating 2004 Indian Ocean earthquake-tsunami that killed
more than 230,000 people in 14 countries, as well as a series of
earthquakes, tsunamis, and volcanic eruptions in and around Indonesia.
If nothing else, these events remind us that the Earth is an
ever-evolving natural system; that the past few hundred years are not
necessarily predictive of the next few hundred; and that we may, in the
last century in particular, have lulled ourselves into a sense of
complacency about our planet that is ill-deserved. More important, they
suggest that we may -- and I emphasize may -- be returning to an era in
which the frequency of the incidence of such events is on the rise.
In this context, the folly and hubris with which we’ve treated
natural forces comes strongly into focus. Take what’s happening at the
Fukushima Daiichi nuclear power complex in northern Japan, where at
least four nuclear reactors and their adjoining containment pools for
“spent” nuclear fuel remain dangerously out of control. The designers
and owners of the plant obviously did not cause the earthquake and
tsunami that have created the present peril. This was a result of the
planet’s natural evolution -- in this case, of the sudden movement of
continental plates. But they do bear responsibility for failing to anticipate the potential for catastrophe -- for building a reactor on the site of frequent past tsunamis and assuming that a human-made concrete platform
could withstand the worst that nature has to offer. Much has been said
about flaws in design at the Fukushima plant and its inadequate backup
systems. All this, no doubt, is vital, but the ultimate cause of the
disaster was never a simple design flaw. It was hubris: an
overestimation of the power of human ingenuity and an underestimation of
the power of nature.
What future disasters await us as a result of such hubris? No one,
at this point, can say with certainty, but the Fukushima facility is not the only reactor built near
active earthquake zones, or at risk from other natural disturbances.
And don’t just stop with nuclear plants. Consider, for instance, all
those oil platforms
in the Gulf of Mexico at risk from increasingly powerful hurricanes or,
if cyclones increase in power and frequency, the deep-sea ones Brazil
is planning to construct
up to 180 miles off its coast in the Atlantic Ocean. And with recent
events in Japan in mind, who knows what damage might be inflicted by a
major earthquake in California? After all, California, too, has nuclear
plants sited ominously near earthquake faults.
Underestimating Eaarth
Hubris of this sort is, however, only one of the ways in which we
invite the planet’s ire. Far more dangerous and provocative is our
poisoning of the atmosphere with the residues of our resource
consumption, especially of fossil fuels. According to
the U.S. Department of Energy, total carbon emissions from all forms of
energy use had already hit 21.2 billion metric tons by 1990 and are
projected to rise ominously to 42.4 billion by 2035, a 100% increase in
less than half a century. The more carbon dioxide and other greenhouse
gases we dump into the atmosphere, the more we alter the planet’s
natural climatic systems and damage other vital ecological assets,
including oceans, forests, and glaciers. These are all components of
the planet’s integral makeup, and when damaged in this way, they will
trigger defensive feedback mechanisms: rising temperatures, shifting rainfall patterns, and increased sea levels, among other reactions.
The notion of the Earth as a complex natural system with multiple feedback loops was first proposed by environmental scientist James Lovelock in the 1960s and propounded in his 1979 book, Gaia: A New Look at Life on Earth.
(Lovelock appropriated the name of the ancient Greek goddess Gaia, the
personification of Mother Earth, for his version of our planet.) In
this and other works, Lovelock and his collaborators argue that all
biological organisms and their inorganic surroundings on the planet are
closely integrated to form a complex and self-regulating system,
maintaining the necessary conditions for life -- a concept they termed “the Gaia Hypothesis.”
When any parts of this system are damaged or altered, they contend, the
others respond by attempting to repair, or compensate for, the damage
in order to restore the essential balance.
Think of our own bodies when attacked by virulent microorganisms: our
temperature rises; we produce more white blood cells and other fluids,
sleep a lot, and deploy other defense mechanisms. When successful, our
bodies’ defenses first neutralize and eventually exterminate the
invading germs. This is not a conscious act, but a natural, life-saving
process.
Eaarth is now responding to humanity’s depredations in a similar way:
by warming the atmosphere, taking carbon from the air and depositing it
in the ocean, increasing rainfall in some areas and decreasing it
elsewhere, and in other ways compensating for the massive atmospheric
infusion of harmful human emissions.
But what Eaarth does to protect itself from human intervention is
unlikely to prove beneficial for human societies. As the planet warms
and glaciers melt, sea levels will rise, inundating coastal areas,
destroying cities, and flooding low-lying croplands. Drought will
become endemic in many once-productive farming areas, reducing food
supplies for hundreds of millions of people. Many plant and animal
species that are key to human livelihoods, including various species of
trees, food crops, and fish, will prove incapable of adjusting to these
climate changes and so cease to exist. Humans may -- and again I
emphasize that may -- prove more successful at adapting to the
crisis of global warming than such species, but in the process,
multitudes are likely to die of starvation, disease, and attendant
warfare.
Bill McKibben is right: we no longer live on the “cozy,
taken-for-granted” planet formerly known as Earth. We inhabit a new
place, already changed dramatically by the intervention of humankind.
But we are not acting upon a passive, impotent entity unable to defend
itself against human transgression. Sad to say, we will learn to our
dismay of the immense powers available to Eaarth, the Avenger.
