Today's Stories

October 1 , 2008

Glen Ford
The Last Hold Up

Steven Conn
Trashing Sarah Palin: the Boomerang Effect

Alan Maass / Lee Sustar
Why Not a Bailout for the Rest of Us?

Kenneth Couesbouc
The Blame Game

Adolfo Gilly
Racism, Domination and Bolivia

Rannie Amiri
Bombs in the Levant

Adam W. Parsons
Food and Markets

Douglas Valentine
The Bush Continuity Plan?

September 30, 2008

Pam Martens
What Wall Street Hoped to Win

Chris Floyd
The Shadow of the Pitchfork: Elite Panic on Wall Street

Stephen Martin
A Biological Walk Down Wall Street

Deepak Tripathi
A Bitter Harvest in Afghanistan

Mark Engler
Bad Money

Jonathan Cook
The Attack on Zeev Sternhell: Has Israel Become a Breeding Ground for Jewish Settler Terrorism?

Dave Lindorff
The Power of No

Manuel Garcia, Jr.
Time for a General Strike?

Ahmad Faruqui
In Cold Blood: Buried Alive in Pakistan

John Chuckman
Will the Bride Wear White? As Rome Burns, Bristol Palin Prepares to Tie the Knot with Mr. "Sex on Skates"

David Macaray
Blaming the Labor Unions

Fatemeh Keshavarz
What Obama Could Have Said

Website of the Day
538: a Cognitive Map of American Politics

September 29, 2008

Mike Whitney
Black Monday

Jeff Gibbs
"Just Say No!" to Reverse Robin Hood

Paul Craig Roberts
Why America Should Listen to Ahmadinejad

Peter Morici
The Bailout and the Economy

Tim Wise
Racism as Reflex

John Walsh
Sarah Palin is a Rotten Mom

Uri Avnery
Israeli Fascism: Yes, It Can Happen Here

Alan Farago
Hell to Pay: the Financial Collapse and the Housing Market

Andy Worthington
Is Khalid Sheikh Mohammed Running the 9/11 Trials?

David Michael Green
Where's the Repudiation?

Carl Finamore
Capitalism on Steroids; Labor on Tranquilizers

Iris Keltz
Postcards from the DNC

Bill Hatch
Take This Shrimp Slayer!

Website of the Day
Tina Fey as Palin, Round Two

September 27 / 28, 2008

Alexander Cockburn
How McCain Blew It

Linn Washington, Jr.
Alaska's Blacks and Palin: a Strained Relationship

Christopher Ketcham
An Israeli Trojan Horse

Mike Whitney
The People vs. the Banksters

Kevin Alexander Gray Race in the Race: Is Obama Shining Us On?

Anthony DiMaggio
The Unspoken War: Pakistan, the Media and Nuclear Weapons

Mary Lynn Cramer
Their Assets; Our Debts: How Economic Crises Are Overcome

Marc Levy /
Susan Erony
War Jokes Wanted: No Laughing Matter

Stan Cox
Livestock of Mass Destruction: Germ Labs in the Heartland

Saul Landau
Election Drizzle

Ali Khan
Meltdown in American Markets: an Islamic Perspective

David Rosen
The Great Fear: the Sexual Politics of Sarah Palin

Todd Alan Price
Bailing Out the Foes of Public Eduction

Matts Svensson
The Red and White Bird in Gaza

Ron Jacobs
Pakistan Through the Eyes of a Native Son

Robert Fantina
McCain and the Economy

Richard Rhames
Hank-ering for a Bailout

David Krieger
The U.S.-India Nuclear Proliferation Deal

Seth Sandronsky
Rethinking Charter Schools

Charles R. Larson
Dear Mrs. Abacha: a Nigerian Email Romance

Kim Nicolini
Sadism in the Desert

Poets' Basement
La Morticella, Holt, Moser and Buknatski

Website of the Day
The Great Schlep

September 26, 2008

Moshe Adler
Bailing Out Wall Street Won't Save Main Street

Bill Quigley
The U.S. War on Unarmed Working Mothers

Jonathan Cook
When Archaeology Becomes a Curse

Manuel Garcia, Jr.
Visions of Pinpoint Control: the Romance of Laser Weapons

Madis Senner
Why the Bailout will Fail

Brian Cloughley
US Raids in Pakistan: Violations of Sovereignty

Niranjan Ramakrishnan
Oh, Henry!

Joanne Mariner
Passport Fraud and Torture

Dan La Botz
The Financial Crisis: a View from the Left

David Macaray
Ralph's Management Indicted by Federal Grand Jury

Website of the Day
Nader and Obama Girl at the Office

September 25, 2008

Michael Hudson
The Insanity of the $700 Billion Giveaway

Sharon Smith
Democrats and Corporate Bailouts

Ralph Nader
Who Will Show Some Backbone Against the Bailout?

Christopher Ketcham
The Economy of Dead Sperm (or What I Learned From My Race-Car Grandpa Who Had No Bankers)

Eric Toussaint
Is Another Third World Debt Crisis in the Offing?

Robert Weissman
Getting Wall Street Pay Reform Right

David Estabrook
A Better Bailout Plan

Nikolas Kozloff
The Voyage of the SS Peter the Great

Steve Early
The High Price of Purple Dissent

Judith Scherr
Blue Helmets in Haiti

Laray Polk
South Ossetia and Abkhazia: Notes from the Inside

Website of the Day
Letterman Spanks McCain

September 24, 2008

Paul Craig Roberts
The Bitter Fruits of Deregulation

Nikolas Kozloff
Palin at the UN: a Tutorial from Uribe

Robert Weissman
The Financial Crisis: How and Why Congress Should Play for Time

Andy Worthington
The Guantánamo Trials: Govt. Says Six Years Not Long Enough to Prepare Evidence

Steve Conn
Will Nader's Warning be Acknowledged in the Presidential Debates?

Karyn Strickler
The $700,000,000,000 Power Punch

Diane Farsetta
Stealth Marketers Gone Wild

Dennis Loo
Poisoned Legacy

John Halle
Wealth Tax Now!

Khalil Nakhleh
Palestinians Under the Occupation

Website of the Day
Nader: Debate Crasher

September 23, 2008

Rev. Jesse Jackson, Sr.
Bail Out on This Bailout

Michael Hudson
Henry Paulson and the New Yazoo Land Scandal

Tariq Ali
Why was the Marriott Targeted?

Patrick Dyer
A Death Row Visit with Troy A. Davis

Franklin Lamb
Hezbollah and the Palestinians

Joshua Frank
Oppose Barack Obama? How Dare Thee!

Alan Farago
Pushing the Referees: How the Financial Crisis Occurred

Dave Lindorff
The Bailout Will Kill the Dollar

Tanya M. Kerssen /
Roger Burbach
Bolivia's Popular Upheaval

Harvey Wasserman
Nuclear Power Liabilities Dwarf Bush's Wall Street Bailout

Website of the Day
Hammered by the Irish: the Video

September 22, 2008

Michael Hudson
The Paulson-Bernanke Bank Bailout Plan: Will the Cure be Worse Than the Crisis?

Mike Whitney
Mushroom Clouds Over Wall Street

Christopher Ketcham
Let It Collapse!

Ron Jacobs
The Predators' Bailout

Anne-Marie McManus
Lost in the Rhetoric of Crisis

Robert Weitzel
The Twin Terrors of the Holy Land: a Sexy Fundamentalist and a White-Haired Zionist

Wajahat Ali
An Interview with Howard Dean

John Ross
A New Cold War Comes to Latin America

Steve Breyman
Does the U.S. Really Need Cluster Bombs?

Patrick Bond
On the Bellies of the Filth

Uri Avnery
Fly, Tzipora, Fly

Carl J. Mayer
An Open Letter to Michael Moore (AKA God's Pen Pal): Whatever Happened to Voting Your Conscience?

Website of the Day
Stop the Execution of Troy Anthony Davis

September 20 / 21, 2008

Alexander Cockburn
Is This the Stake Through Neoliberalism's Heart?

Michael Hudson
America's Own Kleptocracy

Pam Martens
The Wall Street Model: Unintelligent Design

Lila Rajiva
Putting Lipstick on an AIG

Mike Whitney
Full-Spectrum Breakdown

Richard Rhames
A Bailout to Nowhere

Bill Moyers /
Michael Winship
The NY Yankees and the U.S. Economy

Bill and Kathleen Christison
The Making of Recent U.S. Middle East Policies: a New Study of Neocon Influence

Susan Block
Palin as Venus in Furs: the Dominatrix Politics of Drilling and Killing

Robert Fantina
Republicans and Subpoenas: Never the Twain Shall Meet

Heidi Walters
Hung Up on Route 36: an 18-Wheeler and a Nuclear Cask

David Yearsley
Germany's Lost Organs: When Bigger Was Better

Raymond J. Lawrence
The Politics of Tribulation: Sarah Palin and the Rapture

David Rosen
One Billion Pills Later: Viagra at 10

David Michael Green
Living in Sarah Palin's America

Anthony Papa
Imprisoned Voters and the Elections

Niranjan Ramakrishnan
Freddie, Fannie, Daddy, Nanny

Howard Lisnoff
When We Notice the Homeless

John Goekler
Leaving Every Child Behind

Missy Beattie
Impalement

Dave Zirin
Leave Josh Howard Alone

Charles R. Larson
Holden Caulfield, Rest in Peace

Tim Matson
Too Big for His Birches: Woodlot Economics

Susie Day
Attack of the Angry Fetus

Poets' Basement
Corseri, Gibbons, Jenkins and Ford

Website of the Weekend
Dylan & Baez: Deportees

September 19, 2008

Steven T. Banko
McCain's Passion Play

Mike Whitney
The Point of No Return

Michael Hudson
The Dow Jones' Wonderfully Cheesy Addition

William Kaufman
Shattering the Glass-Steagall Act: the Bi-Partisan Origins of the Financial Crisis

Brenda Norrell
The Fall of Lehman Bros.: Blowback for Black Mesa?

Keeanga-Yamatta Taylor
The New Rhetoric of Racism: Why Won't Obama Call It Out?

Clifton Ross
Bolivia: Cleaning Up the Bull Ring

Dave Lindorff
Hang On to Your Wallets: the Government's About to Rescue Us!

Cynthia McKinney
Seize the Time!

Susan Hurlich
Storm Survivors: a Dispatch from Cuba

Michael Donnelly
Let's Hand It All Over to the Democrats (They Helped Create This Mess)

Website of the Day
The Crisis Explained

September 18, 2008

Benjamin Dangl
The Machine Gun and the Meeting Table

Harvey Wasserman
The Senate's Drill, Drill, Drill Scam

Susan Abulhawa
The Lobby Has Spoken: Biden and Israel

Robert Weissman
After the Fall: the Financial Re-Regulatory Agenda

Anne-Marie McManus
McCain's Cinderella: the Fetishization of Sarah Palin

Corey D. B. Walker
The Poverty of 21st Century Progressivism

William S. Lind
Senator O'Bush: Why Obama is Wrong on Iran and Afghanistan

Ron Jacobs
Washington's False Logic of Torture

Dave Lindorff
American and China: Joined at the Hip

Binoy Kampmark
How Damien Hirst Got Away With It

Website of the Day
An Invisible Army

September 17, 2008

Stephen Conn
Palin and the Politics of Big Oil

Forrest Hylton
Reactionary Rampage in Bolivia

Patrick Cockburn
Petraeus Leaves Iraq

Gregory Elich
Inside North Korea

Ralph Nader
How the U.S. Auto Industry Wrecked Itself

Franklin Lamb
The Palestinians of Shabra-Shatila

Pam Martens
The Gang's All Here: Bush, McCain and the Old Iran/Contra Team

Dave Lindorff
The End of the Blue Chip Economy

Peter Morici
The Damage Deepens

Stanley Heller
The Killing of Count Folke Bernadotte

Douglas Valentine
Rambling David Foster Wallace

Website of the Day
Free Cindy McCain!

September 16, 2008

Paul Craig Roberts
US Economy: Rudderless and Reeling from Direct Hits

Tiphaine Dickson
Citizen Palin: Why Sarah Palin Quoted Westbrook Pegler

Stan Goff
America is Now Rome: an Open Letter to Christian Troops in Iraq and Afghanistan

Uri Avnery
Tzipi's Choice

Michael Winship
Lipstick on Polar Bears

Jeff Halper
Warehousing Palestinians

Patrick Irelan
Bolivia Versus the Empire

Oscar Gonzalez
Who's Dumber? Ike's Refugees or Wall Street's?

Binoy Kampmark
Cheney and His Records

Fatemeh Keshavarz
Muslims are at Peace with You

Sen. Russ Feingold
Restoring the Rule of Law

Website of the Day
The Next Great Rock Band?

September 15, 2008

Mike Whitney
The Tumbrils Roll at Dawn

Peter Morici
Toxic Lehman

Patrick Cockburn
Take Another Look at the Surge

Charles R. Larson
The Maverick Has No Clothes

Jonathan Cook
The Expulsion of Palestinians from Jaffa

Nikolas Kozloff
Racist Rhetoric in Bolivia

Roger Burbach
Morales Confronts the Insurrection: Bolivia and the Echoes of Allende

Helen Redmond
Where's the Health Care Bailout?

David Michael Green
The Democrats Do Poland

David Macaray
The Boeing Strike

Ralph Nader
Remembering Peter Camejo

Website of the Day
The Ballad of Sarah Palin

October 1 , 2008

A Powerful Trap

The Recurring Myth of Peak Oil

By ISMAEL HOSSEIN-ZADEH

The Peak Oil theory maintains that world production of conventional oil will soon reach a maximum, or peak, and decline thereafter, with grave socio-economic consequences. Some proponents of the theory argue that world oil production has already peaked, and is now in a terminal decline [1].

Although, on the face of it, this sounds like a fairly reasonable proposition, it has been challenged on both theoretical and empirical grounds. While some critics have called it a myth, others have branded it as a money-making scam promoted by the business interests that are vested in the fossil fuel industry, in the business of war and militarism, and in the Wall Street financial giants that are engaged in manipulative oil speculation.

Regardless of its validity (or lack thereof), the fact is that Peak Oil has had significant policy and political implications. It has also generated considerable reactions among various interest groups and political activists.

While environmental and similar activists have used Peak Oil to promote more vigorous conservation and more energetic pursuit of alternative fuels, the oil industry and its representatives in and out of the government have taken advantage of Peak Oil to argue in support of unrestrained extraction of oil and expanded drilling in the offshore or wildlife regions.

Because of its simple logic and facile appeal, Peak Oil has also led many ordinary citizens, burdened by high fuel bills during periods of energy crisis, to support unrestrained or expanded drilling. According to a recent Rasmussen poll, 57 percent of Americans favor more offshore drilling. Misled and misplaced popular perceptions, in turn, play into the hands of the oil industry and their representatives to lobby for the lifting of the Federal ban on oil production in hitherto restricted regions.

Citing voter anger over soaring energy prices, Senator John McCain of Arizona, the Republican presidential nominee, recently argued that opening vast stretches of the country’s coastline to oil exploration would help America eliminate the dependence on foreign oil. "We have untapped oil reserves of at least 21 billion barrels in the United States. But a broad federal moratorium stands in the way of energy exploration and production," he said. "It is time for the federal government to lift these restrictions" [2].

Perhaps the financial giants of New York and London have benefited the most from the misleading implications of Peak Oil: “As much as 60% of today’s crude oil price is pure speculation driven by large trader banks and hedge funds. It has nothing to do with the convenient myths of Peak Oil. It has to do with control of oil and its price. . . . Since the advent of oil futures trading and the two major London and New York oil futures contracts, control of oil prices has left OPEC and gone to Wall Street. It is a classic case of the tail that wags the dog,” points out William Engdahl, a top expert on energy and financial markets [3].

Just as Peak Oil plays into the hands of manipulative speculators and beneficiaries of fossil fuel, so too can it be used by the champions of unilateral wars and military adventures, as it implies that war power and military strength are key to access or control of the “shrinking” or “soon-to-be-shrinking” oil. It thus provides fodder for the cannons of war profiteering militarists who are constantly on the look out to invent new enemies and find new pretexts for continued war and escalation of military spending—that is, for the looting of the national treasury, or public money.

By the same token that Peak Oil can serve as a pretext for war and military adventures, it can also serve as a disarming or pacifying factor for many citizens who accept the Peak Oil thesis and, therefore, internalize responsibility for U.S. foreign policy every time they fill their gas tank. In a vicarious way, they may feel that they own the war!

Thus, Peak Oil serves as a powerful trap and a clever manipulation that lets the real forces of war and militarism (the military-industrial complex and the pro-Israel lobby), and the main culprits behind the soaring energy prices (the Wall Street financial giants engaged in manipulative commodity speculation) off the hook; it is a fabulous distraction. All evils are blamed on a commodity upon which we are all utterly dependent.

Not only millions of lay-citizens, but also many scholars and academics have taken the bait and fallen right into this trap by arguing that recent U.S. wars of choice are driven primarily by oil and other “scarce” resources. More broadly, they argue that most wars of the future, like the recent and/or present ones, will be driven by conflicts over natural resources, especially energy and water—hence, for example, the title of Michael T. Klare’s popular book, Resource Wars [4].

As a number of critics have pointed out, this is reminiscent of Thomas R. Malthus’s theory of “scarcity” and “overpopulation.” Malthus (1766-1834), a self-styled British economist, argued that the woes and vagaries of capitalism such as poverty, inequality and unemployment are largely to be blamed on the poor and the unemployed, since they produce too many mouths to be fed, or too many hands to be employed.

In a similar fashion, Peak Oil implies that current crisis in energy (and other commodities) markets is to be blamed, in part, on less-developed or relatively poorer nations such as India and China for growing “too fast” and creating “too much” demand on “scarce” resources. (Similarities between the Peak Oil theory and the Malthusian theory of scarcity are further discussed below.)

Peak Oil Thesis Is Not New: Geology vs. Geopolitics

Peak Oil theory is not altogether new. M. King Hubbert, a well-known geologist, provided a dramatic discussion of the theory in 1956. A year later, Admiral Rickover discussed the end of the fossil fuel era even more emphatically—at the time, he gave oil about fifty more years to run out. Thirty years ago, the Club of Rome predicted an end of oil long before the present day.

Indeed, there is evidence that projections of oil peaking, then declining and running out, have been floated around ever since oil was discovered in the second half of 19th century. For example, the chief geologist of Pennsylvania predicted in 1874 that we would run out of oil in four years—just using it for kerosene [5].

While Peak Oil theory has been around for a long time, it has usually been dormant during “normal” economic times, or “reasonable” oil prices, but has gained heightened currency during periods of energy crisis and high oil prices. For example, Peak Oil became quite popular during (and immediately after) all of the three recent oil crises: the early 1970s crisis, the late 1970s and early 1980s crisis, and the early 1990s crisis.

The obvious reason for the rise in the Peak Oil popularity in the context of those periods of energy crisis was the perception that oil shortage must have played a major role in the respective oil price hikes. It is not surprising, then, that as recent geopolitical convulsions in the Middle East have triggered a new round of oil price hikes, Peak Oil theory has once again become fashionable.

It turns out, however, that oil price shocks of all the previous periods of energy crisis were precipitated not by oil shortages, or any real prospects of oil “peaking and running out,” but by international political convulsions, revolutions and wars: the Arab-Israeli war of 1973, the 1979 Revolution in Iran, and the 1990-91 invasion of Kuwait by Saddam Hussein’s armed forces. Each time, as the turbulent period of war or revolutionary atmosphere ended, higher oil prices of the respective crisis situation subsided accordingly [6].

The current oil price hike too is precipitated not by an oil shortage, as popularly perceived, but by manipulative speculation in energy futures markets—which are, in turn, prompted largely by the unstable atmosphere of war and geopolitical turbulence in the Middle East.

Evidence is therefore unambiguous that, so far, almost all oil price shocks can be explained not by geology, or the so-called Peak Oil, but by geopolitics.

The Paradoxical Reasonableness of Peak Oil: Return of Thomas Malthus

Peak Oil has a prima facie reasonableness that makes it readily acceptable to most people: since oil is a finite natural resource, it is subject to depletion.

But while the rationale behind Peak Oil seems reasonable, it is also seriously flawed and misleading.

One of the major defects of Peak Oil is its facile extrapolation or transition from micro to macro level, that is, an unwarranted generalization or extention of what is true in the case of an existing oil well or oil field to the entire world oil production. It is true that every operating or producing oil well or field increases in production rate until it reaches a maximum or peak flow rate, after which the rate of production enters a terminal decline. It does not follow, however, that global world oil production as a whole must soon reach a maximum and begin to run out afterward—some Peak Oil champions claim that this has already taken place.

Proponents of Peak Oil are quick to point to oil wells or fields that have actually peaked and declined, such as those correctly predicted by geologist M. King Hubbert. They fail, however, to point out the ever newer discoveries of new oil fields and/or other sources of energy that tend to more than offset the depleted ones.

The Peak Oil debate boils down, essentially, to natural versus social limits, or naturally-determined versus socially-determined limits. A similar debate erupted more than 200 hundred years ago over the limits of population growth, on the one hand, and the growth of food supplies, on the other. The debate was prompted largely by a 1978 essay written by the British economist Thomas R. Malthus, titled “An Essay on the Principle of Population.”

Malthus projected an alarming specter of food shortages, hardship, and even starvation “because of faster population growth than food supply.” According to his theory, poverty and distress are unavoidable because, if unchecked, population increases at a geometrical rate (i.e. 1, 2, 4, 8, 16, etc.), whereas the means of subsistence grow at an arithmetical rate (i.e. 1, 2, 3, 4, 5, etc.), thereby leading to inevitable shortages of foodstuff.

As Malthus thus blamed misery and poverty on the poor and the miserable (for giving birth to too many mouths to be fed), he also concluded (logically) that poverty alleviation depended on selective restriction of population growth, that is, curbing the number of the poor and working people.

As checks on population growth, Malthus accepted war, famine, and disease. He also recommended “moral restraint” (marrying late or not at all, coupled with sexual abstinence prior to, and outside of, marriage) as additional checks on the growth of population. His hostility toward the poor was expressed most vividly when he openly argued in favor of dismantling social safety net programs, called “poverty laws”: “We cannot, in the nature of things, assist the poor, in any way, without enabling them to rear up to manhood a greater number of their children.”

By blaming social ills and economic calamities on the poor and working people, Malthus’s views tended, willy-nilly, to exonerate the underlying socio-economic structure, and to prove the inevitability of privation and misery under any social system.

What Malthus failed to see is the fact that growth rates of population and food supplies are not determined purely by nature as fixed, innate, or immutable rates. Instead, they are dynamic categories that can change drastically, depending on the level of economic development, social structure of production, and the state of technology.

Although not identical, the Peak Oil theory is similar to the Malthusian theory in that it too is based on natural, innate, or fixed and immutable limits. There are, of course, limits to everything—energy, food, water, population. But those limits are not absolute or pre-determined, as implied by the Peak Oil thesis. They are perhaps more social than natural limits.

This is why although the Peak Oil theory is not false in saying that there are limits to oil production, it does not explain much. In a real sense, it is a truism. It explains neither the current energy crisis nor any of the past ones. Nor can, therefore, its dire predictions about future global oil production be trustworthy.

More Oil Found than Used Up

Peak Oil misconceptions have many times led to alarmist predictions and dire warnings of an end of global oil production before the current day. Time and again, those forecasts turned out wrong because oil reserves, including proven or cost-efficient reserves, have continued to grow, and more oil wells or fields have been brought under utilization than those peaked and declined. The following is a partial list, as collected by Jason Schwarz, Options Strategist for Lone Peak Asset Management, Westlake Village, CA:

1. An offshore find by Brazilian state oil company Petrobras (PBR) in partnership with BG Group (BRGYY.PK) and Repsol-YPF may be the world's biggest discovery in 30 years, the head of the National Petroleum Agency said. A deep-water exploration area could contain as much as 33 billion barrels of oil, an amount that would nearly triple Brazil's reserves and make the offshore bloc the world's third-largest known oil reserve. "This would lay to rest some of the peak oil pronouncements that we were out of oil, that we weren't going to find any more and that we have to change our way of life," said Roger Read, an energy analyst and managing director at New York-based investment bank Natixis Bleichroeder Inc.

2. A trio of oil companies led by Chevron Corp. (CVX) has tapped a petroleum pool deep beneath the Gulf of Mexico that could boost U.S. reserves by more than 50 percent. A test well indicates it could be the biggest new domestic oil discovery since Alaska's Prudhoe Bay a generation ago. Chevron estimated the 300-square-mile region where its test well sits could hold up to 15 billion barrels of oil and natural gas.

3. Kosmos Energy says its oil field at West Cape Three Points is the largest discovery in deep water West Africa and potentially the largest single field discovery in the region.

4. A new oil discovery has been made by Statoil (STO) in the Ragnarrock prospect near the Sleipner area in the North Sea. "It is encouraging that Statoil has made an oil discovery in a little-explored exploration model that is close to our North Sea infrastructure," says Frode Fasteland, acting exploration manager for the North Sea.

5. Shell (RDS.A) is currently analyzing and evaluating the well data of their own find in the Gulf of Mexico to determine next steps. This find is rumored to be capable of producing 100 billion barrels. Operating in ultra-deep waters of the Gulf of Mexico, the Perdido spar will float on the surface in nearly 8,000 ft of water and is capable of producing as much as 130,000 barrels of oil equivalent per day.

6. In Iraq, excavators have struck three oil fields with reserves estimated at about 2 billion barrels, Kurdish region's Oil Minister Ashti Horami said.

7. Iran has discovered an oil field within its southwest Jofeir oilfield that is expected to boost Jofeir's oil output to 33,000 barrels per day. Iran's new discovery is estimated to have reserves of 750 million barrels, according to Iran's Oil Minister, Gholamhossein Nozari.

8. The United States holds significant oil shale resources underlying a total area of 16,000 square miles. This represents the largest known concentration of oil shale in the world and holds an estimated 1.5 trillion barrels of oil with 800 billion recoverable barrels—enough to meet U.S. demand for oil at current levels for 110 years. More than 70 percent of American oil shale is on Federal land, primarily in Colorado, Utah, and Wyoming.

9. In western North Dakota there is a formation known as the Bakken Shale. The formation extends into Montana and Canada. Geologists have estimated the area holds hundreds of billions of barrels of oil. In an interview provided by USGS, scientist Brenda Pierce put the North Dakota oil in context: "Of the current USGS estimates, this is the largest oil accumulation in the lower 48. . . . It is also the largest continuous type of oil accumulation that we have ever assessed." The USGS study says with today’s technology, about 4 billion barrels of oil can be pumped from the Bakken formation [7].

In the face of such overwhelming evidence, which seriously undermines the Peak Oil theory, proponents of the theory argue that their thesis is based on “proven,” not all, reserves. Proven reserves are reserves that, given a certain level of technology and a certain amount of investment, are proven or estimated to be economical, or cost efficient. Let us briefly examine this “proven vs. total reserves” argument of the Peak Oil champions.

Proven Reserves Are not a Measure of Future Oil Production: Short-Term Market Imperatives vs. Long-Term Public Policy/Interests

That oil companies would want to invest only in the narrow category of proven, or cost efficient, reserves is understandable; it is a simple business principle. But to base future oil supplies on the currently proven reserves, as Peak Oil theory does, is problematic. It represents a short-term, static view of future oil supplies that implicitly ignores the critical role of new investments and technological innovations that can make profitable, or cost efficient, what is currently considered unprofitable, or cost inefficient.

M.A. Adelman points out that “in 1944 a special expert mission estimated Persian Gulf reserves at 16 billion proved and 5 billion probable. By 1975, those same fields had produced 42 billion barrels and had 74 billion remaining. In 1984, geologists estimated a five percent probability of another 199 billion barrels remaining to be added in the Gulf region. In five years those reserves had already been added” [8].

Market imperatives and short-term profitability measures, thus severely limit oil reserve estimates because they effectively exclude not only huge reserves of unconventional oil, but also vast reservoirs of conventional oil that are not currently profitable. This is obviously a major flaw of the Peak Oil theory, as it judges future supplies of oil by the narrowest definition of oil production: currently proven reserves.

However, just as proven reserves determine the current level of oil production, and therefore of investment, the amount of current investment also plays a crucial role in the determination of the amount of proven reserves in the future. Peak Oil views this mutual relationship as a one-way street, or causality—going from the amount of currently proven reserves to the level of the necessary (or cost efficient) investment, and the global production of oil.

Furthermore, reserves that may be considered unprofitable from the viewpoint of private oil companies may well be economical from the viewpoint of state- or publically-owned companies. For example, while a private oil company, may find an estimated profit rate of below x or y percent cost inefficient, a publicly-owned oil company might invest in reserves as long as estimated profit rate is not negative.

Indeed, as the experiences of state-owned oil companies in Russia, China, Venezuela, and many other countries show, publicly-owned oil companies often take large short-term losses in pursuit of long-term returns or rewards. Free from short-term market imperative, Russia, for example, has invested heavily in long-term oil projects, with fantastic results that have more than offset the enormous short-term costs of those projects. Here is how Joe Vialls, an expert with first-hand experience in “ultra-deep drilling,” explains:

“In 1970, the Russians started drilling Kola SG-3, an exploration well which finally reached a staggering world record depth of 40,230 feet. Since then, Russian oil majors including Yukos have quietly drilled more than 310 successful super-deep oil wells, and put them into production. Last Year Russia overtook Saudi Arabia as the world's biggest single oil producer, and is now set to completely dominate global oil production and sales for the next century. . . . With no shareholders holding out their grubby little hands for a wad of pocket money every month, the Russian oil industry managed to surge ahead, under-reaming thousands of its older existing onshore wells in less than ten years” [9].

The Role of Technology: a Dynamic, not Static, Process

A major flaw of Peak Oil, as already pointed out, is that it discounts the fact that energy-saving technologies have drastically improved (and will continue to further improve) not only the efficiency of oil production but also of oil consumption. Evidence shows that, for example, “over a period of five years (1994-99), U.S. GDP expanded over 20 percent while oil usage rose by only nine percent. Before the 1973 oil shock, the ratio was about one to one” [10].

Cars, airplanes and other means of transportation have become more fuel-efficient than ever before—though not as much as they could, or could. Both businesses and consumers are also doing a better job of trimming their energy costs. Obviously, this means that our demand for energy does not grow as fast as the growth of our economy. For example, According to the Energy Information Administration, in 1981 the United States devoted nearly 14 percent of its overall gross domestic product to energy; by 2006 that number had fallen to about 9 percent.

One of the results of the more efficient means of research and development has been a far higher success rate in finding new oil fields. The success rate has risen in twenty years from less than 70 percent to over 80 percent. Computers have helped to reduce the number of dry holes. Horizontal drilling has boosted extraction. Another important development has been deep-water offshore drilling, which the new technologies now permit. Good examples are the North Sea, the Gulf of Mexico, and more recently, the promising offshore oil fields of West Africa [11].

The following are some of the recent technological advances that (as described by Red Cavaney, a top oil expert) have dramatically increased the ability not only to find and extract new oil, but perhaps more importantly, to recover more or additional oil from existing reserves that were formerly considered “peaked and dried” under old technologies.

? Directional Drilling. It used to be that wellbores were basically vertical holes. This made it necessary to drill virtually on top of a potential oil deposit. However, the advent of miniaturized computers and advanced sensors that can be attached to the drill bit now allows companies to drill directional holes with great accuracy because they can get real-time information on the subsurface location throughout the drilling process.

? Horizontal Drilling. Horizontal drilling is similar to directional drilling, but the well is designed to cut horizontally through the middle of the oil or natural gas deposit. Early horizontal wells penetrated only 500 to 800 feet of reservoir laterally, but technology advances recently allowed a North Slope operator to penetrate 8,000 feet of reservoir horizontally. Moreover, horizontal wells can operate up to 10 times more productively than conventional wells.

? 3-D Seismic Technology. Substantial enhancements in computing power during the past two decades have allowed the industry to gain a much clearer picture of what lies beneath the surface. The ability to process huge amounts of data to produce three-dimensional seismic images has significantly improved the drilling success rate of the industry [12].

“Primarily due to these advances,” Cavaney further points out, “the U.S. Geological Survey (USGS), in its 2000 World Petroleum Assessment, increased by 20 percent its estimate of undiscovered, technically recoverable oil. USGS noted that, since oil became a major energy source about 100 years ago, 539 billion barrels of oil have been produced outside the United States. USGS estimates there are 649 billion barrels of undiscovered, technically recoverable oil outside the United States. But, importantly, USGS also estimates that there will be an additional 612 billion barrels from reserve growth—nearly equaling the undiscovered resources. Reserve growth results from a variety of sources, including technological advancement in exploration and production, increases over initially conservative estimates of reserves, and economic changes” [13].

Thanks to new technologies, additional oil can now be recovered from the apparently exhausted reserves. Specifically, the peaking and declining of oil from an existing well is not the same as the peaking and declining of oil from the respective oil field or reservoir. While oil production from an existing well is bound to peak and then slow down, “offset wells” can be drilled later into the same field or reservoir to produce more oil. Here is how Vialls explains:

“Now we come to the completely false [or deliberately misleading] claim by Peak Oil shills that production from existing oil wells is ‘slowing down,’ thereby proving that the oil fields are ‘running dry.’ This is so wrong that it is almost breathtaking. Think of this slowing down process in the same way you might think of the engine oil in your automobile. The longer you run the engine, the higher the level of contaminates that get into the oil. The higher the level of contaminates, the higher the level of friction. Sooner or later you have something closely akin to glue coating your piston rings, and the performance of your engine declines accordingly. This is an inevitable mechanical process well known to all automobile owners.
 
“Henry Ford and others managed to slow down the rate of contamination in engine oils by inventing the oil filter, through which the oil has to circulate each time it passes around inside the engine. A high percentage of the contaminates stick to the filter element, thereby allowing extra miles between oil changes, though heaven help the careless motorist who thinks he can get away without ever changing his clogged oil filter when recommended.
 
“When oil is extracted from a producing formation underground, it flows out through pores in the reservoir rock, and then into the open borehole, from where it is transported to surface by the production tubing string. So by the very nature of the beast, the bottom section of the well is ‘open hole’ which allows the oil to flow out in the first place, but because it is comprised of exposed and sometimes unstable rock, this open hole section is also continually subject to all manner of turbulence and various contaminates. For example, tiny quantities of super fine silt may exit through the pores but not continue to the surface with the oil, tumbling around in the turbulence instead, until the silt very slowly starts to block off the oil-producing pore throats. Yes, of course there are a variety of liners that can be used to slow down the contamination, but there is no such thing as a Henry Ford oil filter 10,000 feet underground.
 
“The inevitable result of this is that over time, the initial production rate of the well will slowly decline, a hard fact known to every exploration oilman in the business. However, this is certainly not an indication that the oil field itself is becoming depleted, proved thousands of times by ‘offset wells’ drilled later into the same reservoir. Any new well comes on stream at the original production rate of its older cousins, because it has not yet had time to build up a thin layer of contaminates across the open hole. Though as we shall see it is possible to ‘do an oil change’ on a producing well and bring it back to full production, this is extremely expensive, and rarely used in the west” [14].

Substitutes or Alternative Sources of Energy

Peak Oil is also subject to criticism because it pays insufficient attention to substitutes or alternative sources of energy, both actual and potential. These include solar, wind, non-food bio-fuel, and nuclear energies. They also include natural gas. Natural gas is now about 25 percent of energy demand worldwide. It is estimated that by 2050 it will be the main source of energy in the world. A number of American, European, and Japanese firms have and are investing heavily in developing fuel cells for cars and other vehicles that would significantly reduce gasoline consumption [15].

Peak Oil also pays short shrift to what is sometimes called “unconventional” oil. These include Tar Sands, Heavy Oils, and Oil Shale.

Tar Sands can be recovered via surface mining or in-situ collection techniques. Canada's Athabasca Tar Sands is the best known example of this kind of unconventional reserve—estimated at 1.8 trillion barrels. Although this was originally considered cost inefficient, experts working in this area now claim that they have brought down the cost from over $20 a barrel to $8 per barrel.

Heavy Oils can be pumped and refined just like conventional petroleum except that they are thicker and have more sulfur and heavy metal contamination, necessitating more extensive refining. Venezuela's Orinoco heavy oil belt is the best known example of this kind of unconventional reserve—estimated at1.2 trillion barrels.

Oil Shale requires extensive processing and consumes large amounts of water. Still, reserves far exceed supplies of conventional oil, and costs are bound to decline as newer and more efficient processing techniques become available [16].

A rarely mentioned but potentially very important substitute for conventional oil “is an even bigger hydrocarbon resource that can be developed to provide nearly endless amounts of energy: methane hydrates (methane frozen in ice crystals). The deposits of methane hydrates are so vast that when we develop the technology to bring them to market, we will have clean-burning energy for 2,000 years. It's just one of the exciting scenarios we may see in the far-off future” [17].

Except for natural gas and nuclear energy, most of these alternative sources of energy are still highly costly, and are therefore used in only insignificant quantities. But, considering the ever evolving newer and more efficient technologies, they are bound to rise in significance. This means that the prospects of reaching a day in our search for energy sources when conventional oil is no longer the world’s dominant source of energy are quite realistic. Humans did not invent motor vehicles because they ran out of horses or horse-driven carriages; nor did they invent electricity because they ran out of candles.

Concluding Remarks

Predictions of global oil production peaking, and then running out, have been around almost as long as oil was discovered in the second half of the 19th century. Time and again, such dire predictions turned out to be false, largely because of the Peak Oil’s apparently sound but actually deceitful logic: while it is true that, as Peak Oil maintains, oil is a finite natural resource that is bound to run out some day, it does not follow, again as Peak Oil argues, that therefore oil is or must be running out soon.

A major flaw of Peak Oil is that it is based on a static, or technology-neutral, assumption: it implicitly assumes that limits to oil are set as natural, innate, and immutable. Yet, limits to oil, like those to most other resources, are determined as much (if not more) socially as they are naturally. Research, development, and technological advances have made (and will continue to make) both the amounts of oil reserves and of oil production much more fluid or elastic than perceived by the champions of Peak Oil.

Another equally-flawed proposition of Peak Oil is that it implicitly views the limits of oil supply independent of substitutes or alternative sources of energy. These include solar, wind, non-food bio-fuel, and nuclear energies. They also include natural gas. Further, they include “unconventional” oil: Tar Sands, Heavy Oils, and Oil Shale. Although, with the exception of natural gas and nuclear technology, the use of these substitutes is sill quite expensive, and therefore, limited, technological advances are bound to reduce their cost and increase their sue.

Viewed in conjunction with the vast pool of substitutes, both actual and potential, oil limits would loom much wider than when they are considered in isolation from such energy alternatives. The constantly evolving newer and more efficient technologies are bound to further expand those limits far beyond the narrow, “natural” limits set by the Peak Oil theory.
_______________________________

References

[1] Robert L. Hirsch, Roger Bezdek, and Robert Wendling, “Peaking of World Oil Production: Impacts, Mitigation, and Risk Management,” Testimony on Peak Oil before the House Subcommittee on Energy and Industry (7 December 2005), http://www.netl.doe.gov/publications/others/pdf/Oil_Peaking_NETL.pdf

[2] Matthew Mosk, “Industry Gushed Money After Reversal on Drilling,” Washington Post (27 July 2008), http://www.washingtonpost.com/wp-dyn/content/article/2008/07/26/AR2008072601891.html

[3] F. William Engdahl, “Perhaps 60% of Today’s Oil Price Is Pure Speculation,” financialsense.com (2 May 2008), http://www.financialsense.com/editorials/engdahl/2008/0502.html

[4] Michael T. Klare, Resource Wars: The New Landscape of Global Conflict (Holt Paperbacks, 2002).

[5] Red Cavaney, “Global Oil Production about to Peak? A Recurring Myth,” World Watch (01 January 2006), http://goliath.ecnext.com/coms2/gi_0199-5142950/Global-oil-production-about-to.html

[6] Eliyahu Kanovsky, “Oil: Who's Really Over a Barrel?” Middle East Quarterly (Spring 2003), http://www.meforum.org/article/527

[7] Jason Schwarz, The Peak Oil Myth: New Oil is Plentiful,” Seeking Alpha (22 June 2008), http://seekingalpha.com/article/82236-the-peak-oil-myth-new-oil-is-plentiful

[8] M.A. Adelman, The Genie out of the Bottle: World Oil since 1970, (Cambridge: MIT Press, 1995); cited in Bill Kovarik, “The Oil Reserve Fallacy: Proven reserves are not a measure of future supply,” http://www.radford.edu/~wkovarik/oil/

[9] Joe Vialls, “Russia Proves ‘Peak Oil’ Is A Misleading Zionist Scam,” rense.com (25 August 2004), http://www.rense.com/general75/zoil.htm

[10] Eliyahu Kanovsky, “Oil: Who's Really Over a Barrel?” Middle East Quarterly (Spring 2003), http://www.meforum.org/article/527

[11] Ibid.

[12] Red Cavaney, “Global Oil Production about to Peak? A Recurring Myth,” World Watch (01 January 2006), http://goliath.ecnext.com/coms2/gi_0199-5142950/Global-oil-production-about-to.html

[13] Ibid.

[14] Joe Vialls, “Russia Proves ‘Peak Oil’ Is A Misleading Zionist Scam,” rense.com (25 August 2004), http://www.rense.com/general75/zoil.htm

[15] The Wall Street Journal (10 March 1998); cited in Eliyahu Kantovsky, “Oil: Who's Really Over a Barrel?” Middle East Quarterly (Spring 2003), http://www.meforum.org/article/527

[16] For an informative discussion of unconventional oil reserves, and a scathing critique of Peak Oil see Bill Kovarik, “The Oil Reserve Fallacy: Proven reserves are not a measure of future supply,” http://www.radford.edu/~wkovarik/oil/

[17] Red Cavaney, “Global Oil Production about to Peak? A Recurring Myth,” World Watch (01 January 2006), http://goliath.ecnext.com/coms2/gi_0199-5142950/Global-oil-production-about-to.html

Ismael Hossein-zadeh, author of the recently published The Political Economy of U.S. Militarism (Palgrave-Macmillan 2007), teaches economics at Drake University, Des Moines, Iowa.

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