Peak oil, an event based on M. King Hubbert's theory, is the point in time when the maximum rate of extraction of petroleum is reached, after which the rate of production is expected to enter terminal decline. Peak oil theory is based on the observed rise, peak, (sometimes rapid) fall, and depletion of aggregate production rate in oil fields over time. Mostly due to the development of new production techniques and the exploitation of unconventional supplies, Hubbert's original predictions for world production proved premature.
Hubbert's original prediction that US Peak Oil would be in about 1970 was accurate, as US average annual production peaked in 1970 at 9.6 million barrels per day. However, after a decades-long decline, the successful application of massive hydraulic fracturing to additional tight reservoirs caused US production to rebound, hitting 9.2 million barrels per day in early 2015.
Peak oil is often confused with oil depletion; peak oil is the point of maximum production, while depletion refers to a period of falling reserves and supply.
Some observers, such as petroleum industry experts Kenneth S. Deffeyes and Matthew Simmons, predict negative global economy implications following a post-peak production decline and oil price increase because of the high dependence of most modern industrial transport, agricultural, and industrial systems on the low cost and high availability of oil. Predictions vary greatly as to what exactly these negative effects would be.
Optimistic estimations of peak production forecast the global decline will begin after 2020, and assume major investments in alternatives will occur before a crisis, without requiring major changes in the lifestyle of heavily oil-consuming nations. These models show the price of oil at first escalating and then retreating as other types of fuel and energy sources are used. Pessimistic predictions of future oil production made after 2007 stated either that the peak had already occurred, that oil production was on the cusp of the peak, or that it would occur shortly.
- 1 Peak theory
- 2 Demand for oil
- 3 Supply of oil
- 3.1 Definitions
- 3.2 Overall supply levels
- 3.3 Discoveries
- 3.4 Reserves
- 3.5 Production
- 3.6 Control over supply
- 4 Timing of peak oil
- 5 Possible consequences of peak oil
- 6 Criticisms
- 7 See also
- 8 Notes
- 9 References
- 10 Further information
- 11 External links
By observing past discoveries and production levels, and predicting future discovery trends, Hubbert used statistical modelling in 1956 to accurately predict that United States oil production would peak between 1965 and 1971. That model, along with his variants, are now called Hubbert peak theory; they have been used to describe and predict the peak and decline of production from regions, countries, and multinational areas. The same theory has also been applied to other limited-resource production-domains, such as minerals, lumber, and fresh water.
Hubbert used a semi-logistical curved model in 1956 (sometimes incorrectly compared to a normal distribution). He assumed the production rate of a limited resource would follow a roughly symmetrical distribution. Depending on the limits of exploitability and market pressures, the rise or decline of resource production over time might be sharper or more stable, appear more linear or curved.
In a 2006 analysis of Hubbert theory, it was noted that uncertainty in real world oil production amounts and confusion in definitions increases the uncertainty in general of production predictions. By comparing the fit of various other models, it was found that Hubbert's methods yielded the closest fit over all, but that none of the models were very accurate. In 1956 Hubbert himself recommended using "a family of possible production curves" when predicting a production peak and decline curve.
The term "peak oil" was popularized by Colin Campbell and Kjell Aleklett in 2002 when they helped form ASPO. In his publications, Hubbert used the term "peak production rate" and "peak in the rate of discoveries".
Demand for oil
The demand side of peak oil over time is concerned with the total quantity of oil that the global market would choose to consume at various possible market prices and how this entire listing of quantities at various prices would evolve over time. Total global quantity demanded of world crude oil grew an average of 1.76% per year from 1994 to 2006, with a high growth of 3.4% in 2003–2004. After reaching a high of Script error: No such module "convert". per day in 2007, world consumption decreased in both 2008 and 2009 by a total of 1.8%, despite fuel costs plummeting in 2008. Despite this lull, world quantity-demanded for oil is projected to increase 21% over 2007 levels by 2030 (Script error: No such module "convert". from Script error: No such module "convert".), or about 0.8% average annual growth, due in large part to increases in demand from the transportation sector. According to the IEA's 2013 projections, growth in global oil demand will be significantly outpaced by growth in production capacity over the next 5 years.
Energy demand is distributed amongst four broad sectors: transportation, residential, commercial, and industrial. In terms of oil use, transportation is the largest sector and the one that has seen the largest growth in demand in recent decades. This growth has largely come from new demand for personal-use vehicles powered by internal combustion engines. This sector also has the highest consumption rates, accounting for approximately 68.9% of the oil used in the United States in 2006, and 55% of oil use worldwide as documented in the Hirsch report. Transportation is therefore of particular interest to those seeking to mitigate the effects of peak oil.
Although demand growth is highest in the developing world, the United States is the world's largest consumer of petroleum. Between 1995 and 2005, US consumption grew from Script error: No such module "convert". to Script error: No such module "convert"., a Script error: No such module "convert". increase. China, by comparison, increased consumption from Script error: No such module "convert". to Script error: No such module "convert"., an increase of Script error: No such module "convert"., in the same time frame. The Energy Information Administration (EIA) stated that gasoline usage in the United States may have peaked in 2007, in part because of increasing interest in and mandates for use of biofuels and energy efficiency.
As countries develop, industry and higher living standards drive up energy use, most often of oil. Thriving economies, such as China and India, are quickly becoming large oil consumers. China has seen oil consumption grow by 8% yearly since 2002, doubling from 1996 to 2006. In 2008, auto sales in China were expected to grow by as much as 15–20%, resulting in part from economic growth rates of over 10% for five years in a row.
Although swift, continued growth in China is often predicted, others predict China's export-dominated economy will not continue such growth trends because of wage and price inflation and reduced demand from the United States. India's oil imports are expected to more than triple from 2005 levels by 2020, rising to Script error: No such module "convert"..
Another significant factor on petroleum demand has been human population growth. Oil production per capita peaked in 1979. The United States Census Bureau predicts that the world population in 2030 will be almost double that of 1980.
Oil production per capita declined from Script error: No such module "convert". in 1980 to Script error: No such module "convert". in 1993, but then increased to Script error: No such module "convert". in 2005. In 2006, the world oil production took a downturn from Script error: No such module "convert". although population has continued to increase. This has caused the oil production per capita to drop again to Script error: No such module "convert"..
One factor that has so far helped ameliorate the effect of population growth on demand is the decline of population growth rate since the 1970s. In 1970, the population grew at 2.1%. By 2007, the growth rate had declined to 1.167%. However, oil production was, until 2005, outpacing population growth to meet demand. World population grew by 6.2% from 6.07 billion in 2000 to 6.45 billion in 2005, whereas according to BP, global oil production during that same period increased from Script error: No such module "convert"., or by 8.2%. or according to EIA, from Script error: No such module "convert"., or by 8.8%.
Supply of oil
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In 1956, Hubbert confined his peak oil prediction to that crude oil “producible by methods now in use.”  By 1962, however, his analyses included future improvements in exploration and production.  All of Hubbert’s analyses of peak oil specifically excluded oil manufactured from oil shale or mined from oil sands.
Conventional oil is either light or heavy. Heavy refers to oil with a thick consistency that does not flow easily. Light oil can flow naturally to the surface or is extracted from the ground using pumpjacks. Pumpjacks are also used to remove heavy oil from the ground. Conventional oil is produced on land and offshore 
Unconventional oil sources
- Oil shale is a common term for sedimentary rock such as shale or marl, containing kerogen, a waxy oil precursor that has not yet been transformed into crude oil by the high pressures and temperatures caused by deep burial. Since it is close to the surface rather than buried deep in the earth, the shale or marl is typically mined, crushed, and retorted, producing synthetic oil from the kerogen. Its net energy yield is much lower than conventional oil, so much so that estimates of the net energy yield of shale discoveries are considered extremely unreliable.
- Oil sands are unconsolidated sandstone deposits containing large amounts of very viscous crude bitumen or extra-heavy crude oil that can be recovered by surface mining or by in-situ oil wells using steam injection or other techniques. It can be liquefied by upgrading, blending with diluent, or by heating; and then processed by a conventional oil refinery. The recovery process requires advanced technology but is more efficient than that of oil shale.
- Coal liquefaction or Gas to liquids product are liquid hydrocarbons that are synthesised from the conversion of coal or natural gas.
Overall supply levels
|“||Our analysis suggests there are ample physical oil and liquid fuel resources for the foreseeable future. However, the rate at which new supplies can be developed and the break-even prices for those new supplies are changing.||”|
According to the IEA's Oil Market Report dated 13 December 2011, global oil supply had risen to a record high of 90.0 mb/day by November 2011. Of this, oil supply from OPEC nations represented only 30.68 mb/day (34.1% of the total).
|“||All the easy oil and gas in the world has pretty much been found. Now comes the harder work in finding and producing oil from more challenging environments and work areas.||”|
|“||It is pretty clear that there is not much chance of finding any significant quantity of new cheap oil. Any new or unconventional oil is going to be expensive.||”|
The peak of world oilfield discoveries occurred in 1965 at around Script error: No such module "convert".(Gb)/year. According to the Association for the Study of Peak Oil and Gas (ASPO), the rate of discovery has been falling steadily since. Less than 10 Gb/yr of oil were discovered each year between 2002 and 2007. According to a 2010 Reuters article, the annual rate of discovery of new fields has remained remarkably constant at 15–20 Gb/yr.
A researcher for the U.S. Energy Information Administration pointed out that after the first wave of discoveries in an area, most oil and natural gas reserve growth comes not from discoveries of new fields, but from extensions and additional gas found within existing fields.
Total possible conventional crude oil reserves include all crude oil with 90–95% certainty of being technically possible to produce (from reservoirs through a wellbore using primary, secondary, improved, enhanced, or tertiary methods), all crude with a 50% probability of being produced in the future, and discovered reserves that have a 5–10% possibility of being produced in the future. These are referred to as 1P/Proven (90–95%), 2P/Probable (50%), and 3P/Possible (5–10%). This does not include liquids extracted from mined solids or gasses (oil sands, oil shales, gas-to-liquid processes, or coal-to-liquid processes).
Many current 2P calculations predict reserves to be between 1150 and 1350 Gb, but some authors have written that because of misinformation, withheld information, and misleading reserve calculations, 2P reserves are likely nearer to 850–900 Gb. The Energy Watch Group wrote that actual reserves peaked in 1980, when production first surpassed new discoveries, that apparent increases in reserves since then are illusory, and concluded (in 2007): "Probably the world oil production has peaked already, but we cannot be sure yet."
In 2005, the New York Times reported that technology was capable of extracting about 40% of the oil from most wells. They quoted the Saudi Oil Minister Ali al-Naimi and oil industry consultant Daniel Yergin as speculating that future technology would make further extraction possible.
In many major producing countries, the majority of reserves claims have not been subject to outside audit or examination. Most of the easy-to-extract oil has been found. Recent price increases have led to oil exploration in areas where extraction is much more expensive, such as in extremely deep wells, extreme downhole temperatures, and environmentally sensitive areas or where high technology will be required to extract the oil. A lower rate of discoveries per explorations has led to a shortage of drilling rigs, increases in steel prices, and overall increases in costs because of complexity.
Concerns over stated reserves
|“||[World] reserves are confused and in fact inflated. Many of the so-called reserves are in fact resources. They're not delineated, they're not accessible, they’re not available for production.||”|
Al-Husseini estimated that Script error: No such module "convert". of the world's Script error: No such module "convert". of proven reserves should be recategorized as speculative resources.
One difficulty in forecasting the date of peak oil is the opacity surrounding the oil reserves classified as "proven". Many worrying signs concerning the depletion of proven reserves have emerged in recent years. This was best exemplified by the 2004 scandal surrounding the "evaporation" of 20% of Shell's reserves.
For the most part, proven reserves are stated by the oil companies, the producer states and the consumer states. All three have reasons to overstate their proven reserves: oil companies may look to increase their potential worth; producer countries gain a stronger international stature; and governments of consumer countries may seek a means to foster sentiments of security and stability within their economies and among consumers.
Major discrepancies arise from accuracy issues with OPEC's self-reported numbers. Besides the possibility that these nations have overstated their reserves for political reasons (during periods of no substantial discoveries), over 70 nations also follow a practice of not reducing their reserves to account for yearly production. Analysts have suggested that OPEC member nations have economic incentives to exaggerate their reserves, as the OPEC quota system allows greater output for countries with greater reserves.
Kuwait, for example, was reported in the January 2006 issue of Petroleum Intelligence Weekly to have only Script error: No such module "convert". in reserve, of which only 24 were fully proven. This report was based on the leak of a confidential document from Kuwait and has not been formally denied by the Kuwaiti authorities. This leaked document is from 2001, so the figure includes oil that has been produced since 2001, roughly 5-Script error: No such module "convert"., but excludes revisions or discoveries made since then. Additionally, the reported Script error: No such module "convert". of oil burned off by Iraqi soldiers in the First Persian Gulf War are conspicuously missing from Kuwait's figures.
On the other hand, investigative journalist Greg Palast argues that oil companies have an interest in making oil look more rare than it is, to justify higher prices. This view is contested by ecological journalist Richard Heinberg. Other analysts argue that oil producing countries understate the extent of their reserves to drive up the price.
In November 2009, a senior official at the IEA alleged that the United States had encouraged the international agency to manipulate depletion rates and future reserve data to maintain lower oil prices. In 2005, the IEA predicted that 2030 production rates would reach Script error: No such module "convert"., but this number was gradually reduced to Script error: No such module "convert".. The IEA official alleged industry insiders agree that even 90 to Script error: No such module "convert". might be impossible to achieve. Although many outsiders had questioned the IEA numbers in the past, this was the first time an insider had raised the same concerns. A 2008 analysis of IEA predictions questioned several underlying assumptions and claimed that a 2030 production level of Script error: No such module "convert". (comprising Script error: No such module "convert". of crude oil and Script error: No such module "convert". of both non-conventional oil and natural gas liquids) was more realistic than the IEA numbers.
The EUR reported by the 2000 USGS survey of Script error: No such module "convert". has been criticized for assuming a discovery trend over the next twenty years that would reverse the observed trend of the past 40 years. Their 95% confidence EUR of Script error: No such module "convert". assumed that discovery levels would stay steady, despite the fact that discovery levels have been falling steadily since the 1960s. That trend of falling discoveries has continued in the ten years since the USGS made their assumption. The 2000 USGS is also criticized for introducing other methodological errors, as well as assuming 2030 production rates inconsistent with projected reserves.
As conventional oil becomes less available, it can be replaced with production of liquids from oil sands, ultra-heavy oils, gas-to-liquids technologies, coal-to-liquids technologies, biofuel technologies, and shale oil. In the 2007 and subsequent International Energy Outlook editions, the word "Oil" was replaced with "Liquids" in the chart of world energy consumption. In 2009 biofuels was included in "Liquids" instead of in "Renewables".
Unconventional sources, such as heavy crude oil, oil sands, and oil shale are not counted as part of oil reserves. However, with rule changes by the SEC, oil companies can now book them as proven reserves after opening a strip mine or thermal facility for extraction. These unconventional sources are more labor and resource intensive to produce, however, requiring extra energy to refine, resulting in higher production costs and up to three times more greenhouse gas emissions per barrel (or barrel equivalent) on a "well to tank" basis or 10 to 45% more on a "well to wheels" basis, which includes the carbon emitted from combustion of the final product.
While the energy used, resources needed, and environmental effects of extracting unconventional sources has traditionally been prohibitively high, the three major unconventional oil sources being considered for large-scale production are the extra heavy oil in the Orinoco Belt of Venezuela, the Athabasca Oil Sands in the Western Canadian Sedimentary Basin, and the oil shales of the Green River Formation in Colorado, Utah, and Wyoming in the United States. Energy companies such as Syncrude and Suncor have been extracting bitumen for decades but production has increased greatly in recent years with the development of Steam Assisted Gravity Drainage and other extraction technologies.
Chuck Masters of the USGS estimates that, "Taken together, these resource occurrences, in the Western Hemisphere, are approximately equal to the Identified Reserves of conventional crude oil accredited to the Middle East." Authorities familiar with the resources believe that the world's ultimate reserves of unconventional oil are several times as large as those of conventional oil and will be highly profitable for companies as a result of higher prices in the 21st century. In October 2009, the USGS updated the Orinoco tar sands (Venezuela) recoverable "mean value" to Script error: No such module "convert"., with a 90% chance of being within the range of 380-Script error: No such module "convert"., making this area "one of the world's largest recoverable oil accumulations".
Despite the large quantities of oil available in non-conventional sources, Matthew Simmons argued in 2005 that limitations on production prevent them from becoming an effective substitute for conventional crude oil. Simmons stated "these are high energy intensity projects that can never reach high volumes" to offset significant losses from other sources. Another study claims that even under highly optimistic assumptions, "Canada's oil sands will not prevent peak oil," although production could reach Script error: No such module "convert". by 2030 in a "crash program" development effort.
Moreover, oil extracted from these sources typically contains contaminants such as sulfur and heavy metals that are energy-intensive to extract and can leave tailings, ponds containing hydrocarbon sludge, in some cases. The same applies to much of the Middle East's undeveloped conventional oil reserves, much of which is heavy, viscous, and contaminated with sulfur and metals to the point of being unusable. However, recent high oil prices make these sources more financially appealing. A study by Wood Mackenzie suggests that within 15 years all the world’s extra oil supply is likely to come from unconventional sources.
Currently, two companies SASOL and Shell, have synthetic oil technology proven to work on a commercial scale. Sasol's primary business is based on CTL (coal-to-liquid) and GTL (natural gas-to-liquid) technology, producing US$4.40 billion in revenues (FY2009). Shell has used these processes to recycle waste flare gas (usually burnt off at oil wells and refineries) into usable synthetic oil.
A 2003 article in Discover magazine claimed that thermal depolymerization could be used to manufacture oil indefinitely, out of garbage, sewage, and agricultural waste. The article claimed that the cost of the process was $15 per barrel. A follow-up article in 2006 stated that the cost was actually $80 per barrel, because the feedstock that had previously been considered as hazardous waste now had market value.
A 2007 news bulletin published by Los Alamos Laboratory proposed that hydrogen (possibly produced using hot fluid from nuclear reactors to split water into hydrogen and oxygen) in combination with sequestered CO2 could be used to produce methanol (CH3OH), which could then be converted into gasoline. The press release stated that in order for such a process to be economically feasible, gasoline prices would need to be above $4.60 "at the pump" in U.S. markets. Capital and operational costs were uncertain mostly because the costs associated with sequestering CO2 are unknown. Another problem is that an energy source will be required for both carbon capture and water splitting processes.
The point in time when peak global oil production occurs defines peak oil. Adherents of 'peak oil' believe that production capacity will remain the main limitation of supply, and that when production decreases, it will be the main bottleneck to the petroleum supply/demand equation. So far, predictions of an imminent peak have been incorrect and it is not yet known whether any future possible decline in oil production will be supply- or demand- led.
Worldwide oil discoveries have been less than annual production since 1980. According to several sources in 2006-7, worldwide production was past or near its maximum. World population has grown faster than oil production. Because of this, oil production per capita peaked in 1979 (preceded by a plateau during the period of 1973–1979).
The increasing investment in harder-to-reach oil is a sign of oil companies' belief in the end of easy oil. Also, while it is widely believed that increased oil prices spur an increase in production, an increasing number of oil industry insiders are now coming to believe that even with higher prices, oil production is unlikely to increase significantly beyond its current level. Among the reasons cited are both geological factors as well as "above ground" factors that are likely to see oil production plateau near its current level.
A 2008 Journal of Energy Security analysis of the energy return on drilling effort in the United States concluded that there was extremely limited potential to increase production of both gas and (especially) oil. By looking at the historical response of production to variation in drilling effort, the analysis showed very little increase of production attributable to increased drilling. This was because of a tight quantitative relationship of diminishing returns with increasing drilling effort: as drilling effort increased, the energy obtained per active drill rig was reduced according to a severely diminishing power law. The study concluded that even an enormous increase of drilling effort was unlikely to significantly increase oil and gas production in a mature petroleum region such as the United States. Since the analysis was published in 2008, US production of crude oil has increased 30%, and production of dry natural gas has increased 19% (2012 compared to 2008).
Worldwide production trends
According to a January 2007 International Energy Agency report, global supply (which includes biofuels, non-crude sources of petroleum, and use of strategic oil reserves, in addition to crude production) averaged Script error: No such module "convert". in 2006, up Script error: No such module "convert". (0.9%), from 2005. Average yearly gains in global supply from 1987 to 2005 were Script error: No such module "convert". (1.7%). In 2008, the IEA drastically increased its prediction of conventional oil production decline from 3.7% a year to 6.7% a year, based largely on better accounting methods, including actual research of individual oil field production throughout the world.
Oil field decline
Of the world's largest 21 fields, at least 9 are in decline. In 2006, Saudi Aramco Senior Vice President Abdullah Saif estimated that its existing fields were declining at a rate of 5% to 12% per year. This information has been used to argue that Ghawar, which is the largest oil field in the world and responsible for approximately half of Saudi Arabia's oil production over the last 50 years, will soon start to decline. The world's second largest oil field, the Burgan Field in Kuwait, entered decline in November 2005.
According to a study of the largest 811 oilfields conducted in early 2008 by Cambridge Energy Research Associates (CERA), the average rate of field decline is 4.5% per year. The IEA stated in November 2008 that an analysis of 800 oilfields showed the decline in oil production to be 6.7% a year, and that this would grow to 8.6% in 2030. There are also projects expected to begin production within the next decade that are hoped to offset these declines. The CERA report projects a 2017 production level of over Script error: No such module "convert"..
Kjell Aleklett of the Association for the Study of Peak Oil and Gas agrees with their decline rates, but considers the rate of new fields coming online—100% of all projects in development, but with 30% of them experiencing delays, plus a mix of new small fields and field expansions—overly optimistic. A more rapid annual rate of decline of 5.1% in 800 of the world's largest oil fields was reported by the International Energy Agency in their World Energy Outlook 2008.
Mexico announced that production from its giant Cantarell Field began to decline in March 2006. In 2000, PEMEX built the largest nitrogen plant in the world in an attempt to maintain production through nitrogen injection into the formation, but by 2006, Cantarell was declining at a rate of 13% per year.
OPEC had vowed in 2000 to maintain a production level sufficient to keep oil prices between $22–28 per barrel, but did not prove possible. In its 2007 annual report, OPEC projected that it could maintain a production level that would stabilize the price of oil at around $50–60 per barrel until 2030. On 18 November 2007, with oil above $98 a barrel, King Abdullah of Saudi Arabia, a long-time advocate of stabilized oil prices, announced that his country would not increase production to lower prices. Saudi Arabia's inability, as the world's largest supplier, to stabilize prices through increased production during that period suggests that no nation or organization had the spare production capacity to lower oil prices. The implication is that those major suppliers who had not yet peaked were operating at or near full capacity.
Commentators have pointed to the Jack 2 deep water test well in the Gulf of Mexico, announced 5 September 2006, as evidence that there is no imminent peak in global oil production. According to one estimate, the field could account for up to 11% of U.S. production within seven years. However, even though oil discoveries are expected after the peak oil of production is reached, the new reserves of oil will be harder to find and extract. The Jack 2 field, for instance, is more than Script error: No such module "convert". under the sea floor in Script error: No such module "convert". of water, requiring Script error: No such module "convert". of pipe to reach. Additionally, even the maximum estimate of Script error: No such module "convert". represents slightly less than 2 years of U.S. consumption at present levels. Production began in December 2014 and is expected to ramp up to 94,000 b/d of crude and 21 MMcfd of gas by 2020. 
Control over supply
Entities such as governments or cartels can reduce supply to the world market by limiting access to the supply through nationalizing oil, cutting back on production, limiting drilling rights, imposing taxes, etc. International sanctions, corruption, and military conflicts can also reduce supply.
Nationalization of oil supplies
Another factor affecting global oil supply is the nationalization of oil reserves by producing nations. The nationalization of oil occurs as countries begin to deprivatize oil production and withhold exports. Kate Dourian, Platts' Middle East editor, points out that while estimates of oil reserves may vary, politics have now entered the equation of oil supply. "Some countries are becoming off limits. Major oil companies operating in Venezuela find themselves in a difficult position because of the growing nationalization of that resource. These countries are now reluctant to share their reserves."
According to consulting firm PFC Energy, only 7% of the world's estimated oil and gas reserves are in countries that allow companies like ExxonMobil free rein. Fully 65% are in the hands of state-owned companies such as Saudi Aramco, with the rest in countries such as Russia and Venezuela, where access by Western European and North American companies is difficult. The PFC study implies political factors are limiting capacity increases in Mexico, Venezuela, Iran, Iraq, Kuwait, and Russia. Saudi Arabia is also limiting capacity expansion, but because of a self-imposed cap, unlike the other countries. As a result of not having access to countries amenable to oil exploration, ExxonMobil is not making nearly the investment in finding new oil that it did in 1981.
Cartel influence on supply
OPEC is an alliance between 12 diverse oil producing countries (Algeria, Angola, Ecuador, Iran, Iraq, Kuwait, Libya, Nigeria, Qatar, Saudi Arabia, the United Arab Emirates, and Venezuela) to control the supply of oil. OPEC's power was consolidated as various countries nationalized their oil holdings, and wrested decision-making away from the "Seven Sisters," (Anglo-Iranian, Socony-Vacuum, Royal Dutch Shell, Gulf, Esso, Texaco, and Socal) and created their own oil companies to control the oil. OPEC tries to influence prices by restricting production. It does this by allocating each member country a quota for production. All 12 members agree to keep prices high by producing at lower levels than they otherwise would. There is no way to verify adherence to the quota, so every member faces the same incentive to "cheat" the cartel. United States policy of selling arms and providing security to Saudi Arabia is often seen as an attempt to influence the Saudis to increase oil production. According to sociology professor Michael Schwartz, the purpose for the second Iraq war was to break the back of OPEC and return control of the oil fields to western oil companies.
Alternately, commodities trader Raymond Learsy, author of Over a Barrel: Breaking the Middle East Oil Cartel, contends that OPEC has trained consumers to believe that oil is a much more finite resource than it is. To back his argument, he points to past false alarms and apparent collaboration. He also believes that peak oil analysts are conspiring with OPEC and the oil companies to create a "fabricated drama of peak oil" to drive up oil prices and profits; oil had risen to a little over $30/barrel at that time. A counter-argument was given in the Huffington Post after he and Steve Andrews, co-founder of ASPO, debated on CNBC in June 2007.
Timing of peak oil
There is a general consensus between industry leaders and analysts that world oil production will peak between 2010 and 2030, with a significant chance that the peak will occur before 2020. Dates after 2030 are considered implausible. Determining a more specific range is difficult due to the lack of certainty over the actual size of world oil reserves. Unconventional oil is not currently predicted to meet the expected shortfall even in a best-case scenario. For unconventional oil to fill the gap without "potentially serious impacts on the global economy", oil production would have to remain stable after its peak, until 2035 at the earliest.
On the other hand, the US Energy Information Administration projected in 2014 that world production of “total liquids,” which, in addition to liquid petroleum, includes biofuels, natural gas liquids, and oil sands, would increase at an average rate of about one percent per year through 2040 without peaking. OPEC countries are expected to increase oil production at a faster rate than non-OPEC countries.
Given the large range offered by meta-studies, papers published since 2010 have been relatively pessimistic. A 2010 Kuwait University study predicted production would peak in 2014. A 2010 Oxford University study predicted that production will peak before 2015. A 2014 validation of a significant 2004 study in the journal Energy proposed that it is likely that conventional oil production peaked, according to various definitions, between 2005 and 2011. Models which show a continued increase in oil production may be including both conventional and non-conventional oil. A set of models published in a 2014 Ph.D. thesis predicted that a 2012 peak would be followed by a drop in oil prices, which in some scenarios could turn into a rapid rise in prices thereafter.
Major oil companies hit peak production in 2005. Fatih Birol, chief economist at the International Energy Agency, has also stated that "crude oil production for the world has already peaked in 2006."
In 1962, Hubbert predicted that world oil production would peak at a rate of 12.5 billion barrels per year, around the year 2000. In 1974, Hubbert predicted that peak oil would occur in 1995 "if current trends continue."
As of 2012, OPEC continued to claim that world crude oil production and remaining proven reserves were at record highs.
According to Matthew Simmons, former Chairman of Simmons & Company International and author of Twilight in the Desert: The Coming Saudi Oil Shock and the World Economy, "peaking is one of these fuzzy events that you only know clearly when you see it through a rear view mirror, and by then an alternate resolution is generally too late."
Possible consequences of peak oil
The wide use of fossil fuels has been one of the most important stimuli of economic growth and prosperity since the industrial revolution, allowing humans to participate in takedown, or the consumption of energy at a greater rate than it is being replaced. Some believe that when oil production decreases, human culture, and modern technological society will be forced to change drastically. The impact of peak oil will depend heavily on the rate of decline and the development and adoption of effective alternatives. If alternatives are not forthcoming, the products produced with oil (including fertilizers, detergents, solvents, adhesives, and most plastics) would become scarce and expensive.
In 2005, the United States Department of Energy published a report titled Peaking of World Oil Production: Impacts, Mitigation, & Risk Management. Known as the Hirsch report, it stated, "The peaking of world oil production presents the U.S. and the world with an unprecedented risk management problem. As peaking is approached, liquid fuel prices and price volatility will increase dramatically, and, without timely mitigation, the economic, social, and political costs will be unprecedented. Viable mitigation options exist on both the supply and demand sides, but to have substantial impact, they must be initiated more than a decade in advance of peaking." Some of the information was updated in 2007.
High oil prices
Historical oil prices
The oil price historically was comparatively low until the 1973 oil crisis and the 1979 energy crisis when it increased more than tenfold during that six-year timeframe. Even though the oil price dropped significantly in the following years, it has never come back to the previous levels. Oil price began to increase again during the 2000s until it hit historical heights of $143 per barrel (2007 inflation adjusted dollars) on 30 June 2008. As these prices were well above those that caused the 1973 and 1979 energy crises, they have contributed to fears of an economic recession similar to that of the early 1980s. These fears were not without a basis, since the high oil prices began having an effect on the economies, as, for example, indicated by gasoline consumption drop of 0.5% in the first two months of 2008 in the United States. compared to a drop of 0.4% total in 2007.
It is agreed that the main reason for the price spike in 2005–2008 was strong demand pressure. For example, global consumption of oil rose from Script error: No such module "convert". in 2004 to 31 billion in 2005. The consumption rates were far above new discoveries in the period, which had fallen to only eight billion barrels of new oil reserves in new accumulations in 2004.
In June 2005, OPEC stated that they would 'struggle' to pump enough oil to meet pricing pressures for the fourth quarter of that year. From 2007 to 2008, the decline in the U.S. dollar against other significant currencies was also considered as a significant reason for the oil price increases, as the dollar lost approximately 14% of its value against the Euro from May 2007 to May 2008.
Besides supply and demand pressures, at times security related factors may have contributed to increases in prices, including the War on Terror, missile launches in North Korea, the Crisis between Israel and Lebanon, nuclear brinkmanship between the U.S. and Iran, and reports from the U.S. Department of Energy and others showing a decline in petroleum reserves.
However, during all 2013 and 2014 the price crude oil has showed a relative stability, being between $100 and $110 per barrel, before dropping sharply in late 2014 to below $70.
Effects of rising oil prices
In the past, the price of oil has led to economic recessions, such as the 1973 and 1979 energy crises. The effect the price of oil has on an economy is known as a price shock. In many European countries, which have high taxes on fuels, such price shocks could potentially be mitigated somewhat by temporarily or permanently suspending the taxes as fuel costs rise. This method of softening price shocks is less useful in countries with much lower gas taxes, such as the United States. A baseline scenario for a recent IMF paper found oil production growing at 0.8% (as opposed to a historical average of 1.8%) would result in a small reduction of economic growth from 0.2 to 0.4%.
Some economists predict that a substitution effect will spur demand for alternate energy sources, such as coal or liquefied natural gas. This substitution can be only temporary, as coal and natural gas are finite resources as well.
Prior to the run-up in fuel prices, many motorists opted for larger, less fuel-efficient sport utility vehicles and full-sized pickups in the United States, Canada, and other countries. This trend has been reversing because of sustained high prices of fuel. The September 2005 sales data for all vehicle vendors indicated SUV sales dropped while small cars sales increased. Hybrid and diesel vehicles are also gaining in popularity.
EIA published Household Vehicles Energy Use: Latest Data and Trends in Nov 2005 illustrating the steady increase in disposable income and $20–30 per barrel price of oil in 2004. The report notes "The average household spent $1,520 on fuel purchases for transport." According to CNBC that expense climbed to $4,155 in 2011.
In 2008, a report by Cambridge Energy Research Associates stated that 2007 had been the year of peak gasoline usage in the United States, and that record energy prices would cause an "enduring shift" in energy consumption practices. According to the report, in April gas consumption had been lower than a year before for the sixth straight month, suggesting 2008 would be the first year US gasoline usage declined in 17 years. The total miles driven in the U.S. peaked in 2006.
The Export Land Model states that after peak oil petroleum exporting countries will be forced to reduce their exports more quickly than their production decreases because of internal demand growth. Countries that rely on imported petroleum will therefore be affected earlier and more dramatically than exporting countries. Mexico is already in this situation. Internal consumption grew by 5.9% in 2006 in the five biggest exporting countries, and their exports declined by over 3%. It was estimated that by 2010 internal demand would decrease worldwide exports by Script error: No such module "convert"..
Canadian economist Jeff Rubin has stated that high oil prices is likely to result in increased consumption in developed countries through partial manufacturing de-globalisation of trade. Manufacturing production would move closer to the end consumer to minimise transportation network costs, and therefore a demand decoupling from Gross Domestic Product would occur. Higher oil prices would lead to increased freighting costs and consequently, the manufacturing industry would move back to the developed countries since freight costs would outweigh the current economic wage advantage of developing countries. Chinese Export data released on 10 March 2012 confirmed a deep slowdown in exports, as China entered an unexpectedly large trade deficit.
Agricultural effects and population limits
Since supplies of oil and gas are essential to modern agriculture techniques, a fall in global oil supplies could cause spiking food prices and unprecedented famine in the coming decades.[note 1] Geologist Dale Allen Pfeiffer contends that current population levels are unsustainable, and that to achieve a sustainable economy and avert disaster the United States population would have to be reduced by at least one-third, and world population by two-thirds.
The largest consumer of fossil fuels in modern agriculture is ammonia production (for fertilizer) via the Haber process, which is essential to high-yielding intensive agriculture. The specific fossil fuel input to fertilizer production is primarily natural gas, to provide hydrogen via steam reforming. Given sufficient supplies of renewable electricity, hydrogen can be generated without fossil fuels using methods such as electrolysis. For example, the Vemork hydroelectric plant in Norway used its surplus electricity output to generate renewable ammonia from 1911 to 1971.
Iceland currently generates ammonia using the electrical output from its hydroelectric and geothermal power plants, because Iceland has those resources in abundance while having no domestic hydrocarbon resources, and a high cost for importing natural gas.
Long-term effects on lifestyle
A majority of Americans live in suburbs, a type of low-density settlement designed around universal personal automobile use. Commentators such as James Howard Kunstler argue that because over 90% of transportation in the U.S. relies on oil, the suburbs' reliance on the automobile is an unsustainable living arrangement. Peak oil would leave many Americans unable to afford petroleum based fuel for their cars, and force them to use bicycles or electric vehicles. Additional options include telecommuting, moving to rural areas, or moving to higher density areas, where walking and public transportation are more viable options. In the latter two cases, suburbia may become the "slums of the future." The issue of petroleum supply and demand is also a concern for growing cities in developing countries (where urban areas are expected to absorb most of the world's projected 2.3 billion population increase by 2050). Stressing the energy component of future development plans is seen as an important goal.
Rising oil prices will also affect the cost of food, heating, and electricity. With prices rising for these necessities, a high amount of stress will be put on current middle to low income families as economies contract from the decline in excess funds, decreasing employment rates. The Hirsch/US DoE Report concludes that "without timely mitigation, world supply/demand balance will be achieved through massive demand destruction (shortages), accompanied by huge oil price increases, both of which would create a long period of significant economic hardship worldwide".
Methods that have been suggested for mitigating these urban and suburban issues include the use of non-petroleum vehicles such as electric cars, battery electric vehicles, transit-oriented development, carfree cities, bicycles, new trains, new pedestrianism, smart growth, shared space, urban consolidation, urban villages, and New Urbanism.
An extensive 2009 report on the effects of compact development by the United States National Research Council of the Academy of Sciences, commissioned by the United States Congress, stated six main findings. First, that compact development is likely to reduce "Vehicle Miles Traveled" (VMT) throughout the country. Second, that doubling residential density in a given area could reduce VMT by as much as 25% if coupled with measures such as increased employment density and improved public transportation. Third, that higher density, mixed-use developments would produce both direct reductions in CO2 emissions (from less driving), and indirect reductions (such as from lower amounts of materials used per housing unit, higher efficiency climate control, longer vehicle lifespans, and higher efficiency delivery of goods and services). Fourth, that although short term reductions in energy use and CO2 emissions would be modest, that these reductions would become more significant over time. Fifth, that a major obstacle to more compact development in the United States is political resistance from local zoning regulators, which would hamper efforts by state and regional governments to participate in land-use planning. Sixth, the committee agreed that changes in development that would alter driving patterns and building efficiency would have various secondary costs and benefits that are difficult to quantify. The report recommends that policies supporting compact development (and especially its ability to reduce driving, energy use, and CO2 emissions) should be encouraged.
An economic theory that has been proposed as a remedy is the introduction of a steady state economy. Such a system could include a tax shifting from income to depleting natural resources (and pollution), as well as the limitation of advertising that stimulates demand and population growth. It could also include the institution of policies that move away from globalization and toward localization to conserve energy resources, provide local jobs, and maintain local decision-making authority. Zoning policies could be adjusted to promote resource conservation and eliminate sprawl.
To avoid the serious social and economic implications a global decline in oil production could entail, the 2005 Hirsch report emphasized the need to find alternatives, at least ten to twenty years before the peak, and to phase out the use of petroleum over that time. This was similar to a plan proposed for Sweden that same year. Such mitigation could include energy conservation, fuel substitution, and the use of unconventional oil. Because mitigation can reduce the use of traditional petroleum sources, it can also affect the timing of peak oil and the shape of the Hubbert curve. The less we use, the longer it will last.
Iceland was the first country to suggest transitioning to 100% renewable energy, using hydrogen for vehicles and its fishing fleet, in 1998. By 2009 the concept of using wind, water, and solar power was proposed, with a little biofuel for that segment of transportation that is difficult to electrify, such as large ships and airplanes.
Positive aspects of peak oil
Permaculture sees peak oil as holding tremendous potential for positive change, assuming countries act with foresight. The rebuilding of local food networks, energy production, and the general implementation of "energy descent culture" are argued to be ethical responses to the acknowledgment of finite fossil resources. Majorca is an island currently diversifying its energy supply from fossil fuels to alternative sources and looking back at traditional construction and permaculture methods.
The Transition Towns movement, started in Totnes, Devon and spread internationally by "The Transition Handbook" (Rob Hopkins) and Transition Network, sees the restructuring of society for more local resilience and ecological stewardship as a natural response to the combination of peak oil and climate change.
Opponents to the theory of peak oil often cite new oil reserves that have been found, which continue to forestall a peak oil event. In particular, some contend that oil production from these new oil reserves as well as from existing fields will continue to increase at a rate that outpaces demand, until alternate energy sources for our current fossil fuel dependence are found.
Further criticism against peak oil is confidence in the various options and technologies for substituting oil. And indeed there are some promising approaches that seem to have the potential to reduce or even counterbalance the effects of a peak oil situation. For example, US federal funding has increased for algae fuels since the year 2000 due to rising fuel prices. Numerous more projects are being funded in Australia, New Zealand, Europe, the Middle East, and other parts of the world and private companies are entering the field. In April 2014 researchers at the US Naval Research Laboratory (NRL) announced that they had successfully tested a process to convert seawater into jet fuel. They can extract CO2 both dissolved and bound from the water as a source of carbon, and can extract H2 through electrolysis. They then convert the CO2 and hydrogen into long chain hydrocarbons. Some other well-known alternative fuels include bioalcohol (methanol, ethanol, butanol), chemically stored electricity (batteries and fuel cells), hydrogen, non-fossil methane, non-fossil natural gas, vegetable oil, propane, and other biomass sources.
Oil industry representatives
Oil industry representatives have criticised peak oil theory, at least as it has been presented by Matthew Simmons. The president of Royal Dutch Shell's U.S. operations John Hofmeister, while agreeing that conventional oil production would soon start to decline, criticized Simmons's analysis for being "overly focused on a single country: Saudi Arabia, the world's largest exporter and OPEC swing producer." He also pointed to the large reserves at the US outer continental shelf, which held an estimated Script error: No such module "convert". of oil and natural gas. As of 2008, however, only 15% of those reserves were currently exploitable, a good part of that off the coasts of Louisiana, Alabama, Mississippi, and Texas. Hofmeister also contended that Simmons erred in excluding unconventional sources of oil such as the oil sands of Canada, where Shell was active. The Canadian oil sands—a natural combination of sand, water, and oil found largely in Alberta and Saskatchewan—are believed to contain one trillion barrels of oil. Another trillion barrels are also said to be trapped in rocks in Colorado, Utah, and Wyoming, but are in the form of oil shale. These particular reserves present major environmental, social, and economic obstacles to recovery. Hofmeister also claimed that if oil companies were allowed to drill more in the United States enough to produce another Script error: No such module "convert"., oil and gas prices would not be as high as they were in the later part of the 2000 to 2010 decade. He thought in 2008 that high energy prices would cause social unrest similar to the 1992 Rodney King riots.
Physical peak oil, which I have no reason to accept as a valid statement either on theoretical, scientific or ideological grounds, would be insensitive to prices. (...) In fact the whole hypothesis of peak oil – which is that there is a certain amount of oil in the ground, consumed at a certain rate, and then it's finished – does not react to anything.... Therefore there will never be a moment when the world runs out of oil because there will always be a price at which the last drop of oil can clear the market. And you can turn anything into oil into if you are willing to pay the financial and environmental price... (Global Warming) is likely to be more of a natural limit than all these peak oil theories combined. (...) Peak oil has been predicted for 150 years. It has never happened, and it will stay this way.
According to Rühl, the main limitations for oil availability are "above ground" and are to be found in the availability of staff, expertise, technology, investment security, money and last but not least in global warming. The oil question is about price and not the basic availability. Rühl's views are shared by Daniel Yergin of CERA, who added that the recent high price phase might add to a future demise of the oil industry, not of complete exhaustion of resources or an apocalyptic shock but the timely and smooth setup of alternatives.
Economist Robert L. Bradley, Jr. wrote in a 2007 article in The Review of Austrian Economics that, "[a]n Austrian institutional theory is more robust for explaining changes in mineral-resource scarcity than neoclassical depletionism[.]" Using the writings of Erich Zimmermann and Julian Simon, Bradley also argued in 2012 that resources have subjective rather than objective existences in economics. He concluded that, "what resources come from the ground ultimately depend on the resources in the mind."
Attorney and mechanical engineer Peter W. Huber pointed out in 2006 that the world is just running out of "cheap oil." As oil prices rise, unconventional sources become economically viable. He predicted that, "[t]he tar sands of Alberta alone contain enough hydrocarbon to fuel the entire planet for over 100 years."
Industry blogger Steve Maley echoed some of the points of Yergin, Rühl, Mather and Hofmeister.
Environmental journalist George Monbiot responded to a 2012 report by Leonardo Maugeri by proclaiming that there is more than enough oil (from unconventional sources) for capitalism to "deep-fry" the world with climate change. Stephen Sorrell, senior lecturer Science and Technology Policy Research, Sussex Energy Group, and lead author of the UKERC Global Oil Depletion report, and Christophe McGlade, doctoral researcher at the UCL Energy Institute have criticized Maugeri's assumptions about decline rates.
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- A list of over 20 published articles and books from government and journal sources supporting this thesis have been compiled at Dieoff.org in the section "Food, Land, Water, and Population."
- "peak oil definition from Financial Times Lexicon". Financial Times Lexicon. 2009. Retrieved 26 Aug 2013.
- Miller, R. G.; Sorrell, S. R. (2 December 2013). "The future of oil supply". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 372 (2006): 20130179–20130179. doi:10.1098/rsta.2013.0179. Retrieved 7 April 2014.
- "US Field Production of Crude Oil". Energy Information Administration.
- Snyder, Benjamin (11 Feb 2015). "U.S. oil production reaches all-time high amid depressed crude prices". Fortune. Retrieved 16 Feb 2015.
- "CERA says peak oil theory is faulty". Energy Bulletin (Cambridge Energy Research Associates (CERA)). 14 November 2006. Archived from the original on 22 June 2008. Retrieved 27 July 2008.
- Deffeyes, Kenneth S (19 January 2007). "Current Events – Join us as we watch the crisis unfolding". Princeton University: Beyond Oil. Retrieved 27 July 2008.
- Zittel, Werner; Schindler, Jorg (October 2007). "Crude Oil: The Supply Outlook" (PDF). Energy Watch Group. EWG-Series No 3/2007. Retrieved 27 July 2008.
- Cohen, Dave (31 October 2007). "The Perfect Storm". Association for the Study of Peak Oil and Gas. Retrieved 27 July 2008.
- Kjell Aleklett, Mikael Höök, Kristofer Jakobsson, Michael Lardelli, Simon Snowden, Bengt Söderbergh (9 November 2009). "The Peak of the Oil Age" (PDF). Energy Policy. Archived from the original (PDF) on 26 July 2011. Retrieved 15 November 2009.
- Koppelaar, Rembrandt H.E.M. (September 2006). "World Production and Peaking Outlook" (PDF). Peakoil Nederland. Retrieved 27 July 2008.
- Nick A. Owen, Oliver R. Inderwildi, David A. King (2010). "The status of conventional world oil reserves—Hype or cause for concern?". Energy Policy 38 (8): 4743. doi:10.1016/j.enpol.2010.02.026.
- Deffeyes, Kenneth S (2002). Hubbert's Peak: The Impending World Oil Shortage. Princeton University Press. ISBN 0-691-09086-6.
- Hubbert, Marion King (June 1956). Nuclear Energy and the Fossil Fuels 'Drilling and Production Practice'<span /> (PDF). Spring Meeting of the Southern District. Division of Production. American Petroleum Institute. San Antonio, Texas: Shell Development Company. pp. 22–27. Retrieved 18 April 2008.
- Brandt, Adam R. (May 2007). "Testing Hubbert" (PDF). Energy Policy (Elsevier) 35 (5): 3074–3088. doi:10.1016/j.enpol.2006.11.004.
- Wakeford, Jeremy. "Peak oil is no myth". Engineering News. Retrieved 8 April 2014.
- BP, Statistical Review of World Energy 2010
- "World oil demand 'to rise by 37%'". BBC News. 20 June 2006. Retrieved 25 August 2008.
- "2007 International Energy Outlook" (PDF). United States Energy Information Administration. May 2007. Retrieved 11 July 2009.
- International Energy Outlook 2009
- "Supply shock from North American oil rippling through global markets". International Energy Agency. 14 May 2013.
- "The IEA Says Peak Oil Is Dead. That’s Bad News for Climate Policy". Time Magazine. 15 May 2013.
- "Annual Energy Review 2008" (PDF). United States Energy Information Administration. 29 June 2009. DOE/EIA-0384(2008). Retrieved 11 July 2009.
- "Global Oil Consumption". United States Energy Information Administration. Retrieved 27 July 2008.
- Wood, John H.; Long, Gary R.; Morehouse, David F. (18 August 2004). "Long-Term World Oil Supply Scenarios: The Future Is Neither as Bleak or Rosy as Some Assert". United States Energy Information Administration. Retrieved 27 July 2008.
- "Domestic Demand for Refined Petroleum Products by Sector". United States Bureau of Transportation Statistics. Retrieved 20 December 2007.
- "International Petroleum (Oil) Consumption Data". United States Energy Information Administration. Retrieved 20 December 2007.
- "BP Statistical Review of Energy" (PDF). BP. June 2008. Retrieved 27 July 2008.
- Gold, Russell; Campoy, Ana (13 April 2009). "Oil Industry Braces for Drop in U.S. Thirst for Gasoline". The Wall Street Journal. Retrieved 21 April 2009.
- Associated Press (21 December 2010). "US Gas Demand on Long-Term Decline After Hitting ’06 Peak". Jakarta Globe. Retrieved 10 January 2011.
- "Oil price 'may hit $200 a barrel'". BBC News. 7 May 2008. Retrieved 11 July 2009.
- Mcdonald, Joe (21 April 2008). "Gas guzzlers a hit in China, where car sales are booming". USA Today. Associated Press. Retrieved 11 July 2009.
- O'Brien, Kevin (2 July 2008). "China's Negative Economic Outlook". Seeking Alpha. Retrieved 27 July 2008.
- "China and India: A Rage for Oil". Business Week. 25 August 2005. Retrieved 27 July 2008.
- Duncan, Richard C (November 2001). "The Peak of World Oil Production and the Road to the Olduvai Gorge". Population and Environment (Springer Netherlands) 22 (5): 503–522. ISSN 1573-7810. doi:10.1023/A:1010793021451. Retrieved 11 July 2009.
- "Total Midyear Population for the World: 1950–2050". United States Census Bureau. 18 June 2008. Retrieved 20 December 2007.
- "International Petroleum (Oil) Production Data". United States Energy Information Administration. Retrieved 31 March 2008.
- "The World Factbook". United States Central Intelligence Agency. 20 March 2008. Retrieved 31 March 2008.
- "BP Statistical Review of Energy" (PDF). BP. June 2006. Retrieved 20 December 2007.
- M. King Hubbert, Energy Resources (Washington: National Academy of Sciences, 1962)Publication 1000-D, p.73-75.
- "conventional oil definition from Canadian Association of Oil Producers". Crude Oil. 2014. Retrieved 4 December 2014.
- McGlade, Christophe; Speirs, Jamie; Sorrell, Steve (September 2013). "Methods of estimating shale gas resources – Comparison, evaluation and implications". Energy 59: 116–125. doi:10.1016/j.energy.2013.05.031.
- Philipp, Richter (February 13, 2014). From Boom to Bust? A Critical Look at US Shale Gas Projections (PDF). IAEE International Conference. Lisbon. Retrieved 29 December 2014.
- "FAQs Oil". IEA. Retrieved 11 June 2013.
- "IEA's Oil Market Report, 13 December 2011" (Press release). IEA. 13 December 2011. Retrieved 15 January 2012.
- Donnelly, John (11 December 2005). "Price rise and new deep-water technology opened up offshore drilling". Boston Globe. Retrieved 21 August 2008.
- "The Next Crisis: Prepare for Peak Oil". The Wall Street Journal. February 11, 2010.
- Campbell, C. J. (December 2000). "Peak Oil Presentation at the Technical University of Clausthal". energycrisis.org. Retrieved 21 August 2008.
- Longwell, Harry J. (2002). "The Future of the Oil and Gas Industry: Past Approaches, New Challenges" (PDF). World Energy Magazine (Loomis Publishing Services) 5 (3): 100–104. Retrieved 21 August 2008.
- "The General Depletion Picture" (80). Ireland: Association for the Study of Peak Oil and Gas. 2007. p. 2. Archived from the original (PDF) on 28 November 2009. Retrieved 21 August 2008.
- Christopher Johnson (11 February 2010). "Oil exploration costs rocket as risks rise". Reuters. Retrieved 9 September 2010.
- David F. Morehouse, The intricate puzzle of oil and gas reserve growth, US Energy Information Administration, Natural Gas Monthly, July 1997.
- Webber, John (2007-9). "UK Oil Reserves and Estimated Ultimate Recovery 2007". Department of Energy and Climate Change. Retrieved 11 July 2009. Check date values in:
- Herbert, Jozef (16 July 2007). "Oil industry report says demand to outpace crude oil production". BLNZ. Associated Press. Retrieved 11 July 2009.
- Maass Peter (21 August 2005). "The Breaking Point". The New York Times. Retrieved 26 August 2008.
- "Briefing: Exxon increases budget for oil exploration". International Herald Tribune. 7 March 2007. Retrieved 26 August 2008.
- "Shell plans huge spending increase". International Herald Tribune. 14 December 2005. Retrieved 26 August 2008.
- Boxell, James (10 October 2004). "Top Oil Groups Fail to Recoup Exploration". The New York Times (Energy Bulletin). Archived from the original on 21 May 2008. Retrieved 26 August 2008.
- Gerth, Jeff (24 February 2004). "Forecast of Rising Oil Demand Challenges Tired Saudi Fields". The New York Times. Archived from the original on 9 March 2008. Retrieved 26 August 2008.
- Morsfeld, Carl (10 October 2004). "How Shell blew a hole in a 100-year reputation". The Times (London). Retrieved 26 August 2008.
- Darwish, Badrya (16 June 2008). "What lies beneath?". Kuwait Times. Retrieved 26 August 2008.[dead link]
- Javed, Ali (1 December 2000). "The Economic and Environmental Impact of the Gulf War on Kuwait and the Persian Gulf". American University Trade and Environment Database. Retrieved 18 November 2007.
- Palast, Greg (23 May 2006). "No Peaking: The Hubbert Humbug". Guerrilla News Network. Retrieved 14 July 2010.
- Heinberg, Richard (July 2006). "An Open Letter to Greg Palast on Peak Oil". Retrieved 14 July 2010.
- Learsy, Raymond J. (4 December 2003). "OPEC Follies – Breaking point". National Review. Archived from the original on 29 June 2008. Retrieved 26 August 2008.
- Macalister, Terry (10 November 2009). "Whistleblower: key oil figures were distorted by US pressure". The Guardian (London). pp. 1–2. Retrieved 11 November 2009.
- IEO 2004 pg. 37
- IEO 2006 Figure 3. pg. 2
- IEO 2007 Figure 3. pg. 2
- IEO 2009 Figure 2. pg. 1
- "Modernization of Oil and Gas Reporting" (PDF). Rule changes. SEC. 1 January 2010 (effective). Retrieved 29 March 2010. Check date values in:
- Bob Weber. "Alberta's oilsands: well-managed necessity or ecological disaster?". Moose Jaw Herald, The Canadian Press. Retrieved 29 March 2010.
- Duarte, Joe (28 March 2006). "Canadian Tar Sands: The Good, the Bad, and the Ugly". RigZone. Retrieved 11 July 2009.
- "Environmental Challenges of Heavy Crude Oils". Battelle Memorial Institute. 2003. Retrieved 11 July 2009.
- Sexton, Matt (2003). "Tar Sands: A brief overview". Retrieved 11 July 2009.
- Dyni, John R. (2003). "Geology and resources of some world oil-shale deposits (Presented at Symposium on Oil Shale in Tallinn, Estonia, 18–21 November 2002)" (PDF). Oil Shale. A cientific-Technical Journal (Estonian Academy Publishers) 20 (3): 193–252. ISSN 0208-189X. Retrieved 17 June 2007.
- Johnson, Harry R.; Crawford, Peter M.; Bunger, James W. (2004). "Strategic significance of America's oil shale resource. Volume II: Oil shale resources, technology and economics" (PDF). Office of Deputy Assistant Secretary for Petroleum Reserves; Office of Naval Petroleum and Oil Shale Reserves; United States Department of Energy. Retrieved 23 June 2007.
- Evans, Jon.
Sand banks: If unconventional sources of oil, such as oil sands, could be transformed into crude we could still have a 300-year supply left. The problem is extracting it.Chemistry and Industry 6 November 2006: 18–36. Gale Gerneral OneFile. Web. 5 October 2009. <http://find.galegroup.com>.
- Kovarik, Bill. "The oil reserve fallacy: Proven reserves are not a measure of future supply". Retrieved 11 July 2009.
- Dusseault, Maurice (2002). "Emerging Technology for Economic Heavy Oil Development" (PDF). Alberta Department of Energy. Retrieved 24 May 2008.
- Christopher J. Schenk, Troy A. Cook, Ronald R. Charpentier, Richard M. Pollastro, Timothy R. Klett, Marilyn E. Tennyson, Mark A. Kirschbaum, Michael E. Brownfield, and Janet K. Pitman. (11 January 2010). "An Estimate of Recoverable Heavy Oil Resources of the Orinoco Oil Belt, Venezuela" (PDF). USGS. Retrieved 23 January 2010.
- Alboudwarej, Hussein; et al. (Summer 2006). "Highlighting Heavy Oil" (PDF). Oilfield Review (Schlumberger). Retrieved 24 May 2008. [dead link]
- Wood, Tim (5 November 2005). "Oil Doomsday is Nigh, Tar Sands Not a Substitute". Resource Investor. Retrieved 11 July 2009.
- Söderbergh, B.; Robelius, F.; Aleklett, K. (2007). "A crash programme scenario for the Canadian oil sands industry". Energy Policy (PDF) (Elsevier) 35 (3): 1931–1947. doi:10.1016/j.enpol.2006.06.007.
- Weissman, Jeffrey G.; Kessler, Richard V. (20 June 1996). "Downhole heavy crude oil hydroprocessing". Applied Catalysis A: General 140 (1): 1–16. ISSN 0926-860X. doi:10.1016/0926-860X(96)00003-8.
- Fleming, David (2000). "After Oil". Prospect Magazine. Retrieved 20 December 2009.
- Hoyos, Carola (18 February 2007). "Study sees harmful hunt for extra oil". Financial Times. Retrieved 11 July 2009.
- Lemley Brad (1 May 2003). "Anything Into Oil". Discover magazine. Retrieved 11 July 2009.
- Lemley Brad (2 April 2006). "Anything Into Oil". Discover magazine. Retrieved 11 July 2009.
- Green Freedom: A Concept for Producing Carbon Neutral Synthetic Fuels and Chemicals[dead link], Los Alamos National Laboratory, by F. Jeffrey Martin and William L. Kubic, 2007
- Mackey, Peg; Lawler, Alex (9 January 2008). "Tough to pump more oil, even at $100". Reuters. Retrieved 11 July 2009.
- Kailing, Timothy D (14 December 2008). "Can the United States Drill Its Way to Energy Security?". Journal of Energy Security (Institute for the Analysis of Global Security). Retrieved 11 July 2009.
- US Energy Information Administration, US crude oil production, accessed 16 May 2013.
- "World oil supply and demand" (PDF). International Energy Agency. 18 January 2007. Retrieved 28 July 2009.
- Monbiot, George (15 December 2008). "When will the oil run out?". The Guardian (London). Retrieved 28 July 2009.
- "Peak Oil and Energy Resources". Workers Solidarity Movement. 23 June 2006. Retrieved 28 July 2009.
- "Country Analysis Briefs: Saudi Arabia". United States Energy Information Administration. August 2008. Retrieved 4 September 2008.
- Cordahi, James; Critchlow, Andy (9 November 2005). "Kuwait oil field, world's second largest, 'Exhausted'". Bloomberg. Retrieved 28 July 2009.
- "New Energy Realities – WEO Calls for Global Energy Revolution Despite Economic Crisis". IEA Press Release. International Energy Agency. 12 November 2008. Retrieved 4 August 2009.[dead link]
- Mortishead, Carl (18 January 2008). "World not running out of oil, say experts". The Times (London). Retrieved 28 July 2009.
- Aleklett, Kjell (2006). "Review: CERA's report is over-optimistic" (DOC). Association for the Study of Peak Oil and Gas. Retrieved 29 July 2009.
- "World Energy Outlook 2008 Executive Summary" (PDF). International Energy Agency. 12 November 2008. Retrieved 24 November 2008.
- "Canales: Output will drop at Cantarell field". El Universal. 10 February 2006. Retrieved 28 July 2009.
- Höök, Mikael (2007). "The Cantarell Complex: The dying Mexican giant oil field" (PDF). The Svedberg Laboratory, Uppsala University. Retrieved 24 May 2008.[dead link]
- Arai, Adriana (1 August 2006). "Mexico's Largest Oil Field Output Falls to 4-Year Low". Bloomberg. Retrieved 28 July 2009.
- "World Oil Outlook 2007" (PDF). OPEC. 2007. ISBN 978-3-200-00965-3. Retrieved 26 April 2011.
- "OPEC Summit Roundup Production hike prospects fade as Abu Dhabi summit looms". Forbes. 18 November 2007. Retrieved 29 July 2009.
- "Chevron Announces Record Setting Well Test at Jack" (Press release). Chevron. 5 September 2006. Retrieved 29 July 2009.
- Mufson, Steven (6 September 2006). "U.S. Oil Reserves Get a Big Boost". The Washington Post. Retrieved 29 July 2009.
- Geyer Greg (19 September 2006). "Jack-2 Test Well Behind The Hype". Association for the Study of Peak Oil and Gas. Archived from the original on 21 January 2008. Retrieved 29 July 2009.
- "Petroleum Basic Statistics". United States Energy Information Administration. February 2009. Retrieved 11 July 2009.
- "Chevron reports start of production from Jack-St. Malo fields". Oil&Gas Journal. December 2014. Retrieved 3 February 2015.
- "Non-OPEC peak oil threat receding". Arabian Business. 6 July 2007.
- McNulty Sheila (9 May 2007). "Politics of oil seen as threat to supplies". Financial Times.
- Fox Justin (31 May 2007). "No More Gushers for ExxonMobil". Time magazine.
- Gaurav Sodhi (24 June 2008). "The myth of OPEC". Australian Financial Review. Retrieved 21 August 2008.
- Michael Schwartz (30 October 2007). "Why Did We Invade Iraq Anyway? Putting a Country in Your Tank". Global Policy. Retrieved 21 August 2008.
- "Rejecting the Real 'Snake Oil'". Huffington Post. 29 June 2007.
- Madureira, Nuno Luis (2014). Key Concepts in Energy. London: Springer International Publishing. pp. 125–6. ISBN 978-3-319-04977-9. doi:10.1007/978-3-319-04978-6_6.
- Sorrell, Steve; Miller, Richard; Bentley, Roger; Speirs, Jamie (September 2010). "Oil futures: A comparison of global supply forecasts". Energy Policy 38 (9): 4990–5003. doi:10.1016/j.enpol.2010.04.020.
- Henke, Petter (2014). IEA and Oil : Track record analysis and assessment of oil supply scenarios in WEO 2000-2013 (Report). Digitala Vetenskapliga Arkivet.
- Chapman, Ian (January 2014). "The end of Peak Oil? Why this topic is still relevant despite recent denials". Energy Policy 64: 93–101. doi:10.1016/j.enpol.2013.05.010.
- Miller, R. G.; Sorrell, S. R. (2014). "The future of oil supply". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 372 (2006): 20130179–20130179. doi:10.1098/rsta.2013.0179.
[W]e estimate that around 11–15 mb per day of non-conventional liquids production could be achieved in the next 20 years . . . If crude oil production falls, then total liquids production seems likely to fall as well, leading to significant price increases and potentially serious impacts on the global economy.
- US Energy Information Administration, International energy module, Assumptions to the Annual Energy Outlook 2014, April 2014.
- Sami Nashawi, Adel Malallah and Mohammed Al-Bisharah. "Forecasting World Crude Oil Production Using Multicyclic Hubbert Model". Energy Fuels 24 (3): 1788–1800. doi:10.1021/ef901240p.
- Hallock, John L.; Wu, Wei; Hall, Charles A.S.; Jefferson, Michael (January 2014). "Forecasting the limits to the availability and diversity of global conventional oil supply: Validation". Energy 64: 130–153. doi:10.1016/j.energy.2013.10.075.
- McGlade, Christophe (2014). Uncertainties in the outlook for oil and gas (Ph.D.). University College London.
- Auzanneau, Matthieu (17 March 2014). "Nouvelle chute en 2013 de la production de brut des " majors ", désormais contraintes à désinvestir". Le Monde. Retrieved 26 April 2014.
- Oil and Economic Growth: A Supply-Constrained View
- Inman, Mason (5 May 2011). "The World has Passed Peak Oil, says Top Economist". National Geographic (blog). Retrieved 13 November 2014.
- M. King Hubbert, Energy Resources (Washington: National Academy of Sciences, 1962)Publication 1000-D, p.73-75.
- Noel Grove, reporting M. King Hubbert (June 1974). "Oil, the Dwindling Treasure". National Geographic.
- OPEC Annual Statistical Bulletin, 2013.
- K., Aleklett; Campbell C., Meyer J. (26–27 May 2003). "Matthew Simmons Transcript". Proceedings of the 2nd International Workshop on Oil Depletion,. Paris, France: The Association for the Study of Peak Oil and Gas. Retrieved 24 May 2008.
- Hirsch, Robert L.; Bezdek, Roger; Wendling, Robert (February 2005). "Peaking of World Oil Production: Impacts, Mitigation, & Risk Management" (PDF). Science Applications International Corporation. Retrieved 28 November 2009.
- Hirsch, Robert L. (February 2007). "Peaking of World Oil Production: Recent Forecasts" (PDF). Science Applications International Corporation/U.S.Department of Energy, National Energy Technology Laboratory. Retrieved 16 February 2013.
- "What is driving oil prices so high?". BBC News. 5 November 2007.
- Bruno, Joe Bel (8 March 2008). "Oil Rally May Be Economy's Undoing". USA Today. Associated Press. Retrieved 11 July 2009.
- Langfitt Frank (5 March 2008). "Americans Using Less Gasoline". NPR.
- Lavelle Marianne (4 March 2008). "Oil Demand Is Dropping, but Prices Aren't". U.S. News & World Report.
- "Oil Market Report – Demand" (PDF). International Energy Agency. 12 July 2006.
- Gold, Russell and Ann Davis (19 November 2007). "Oil Officials See Limit Looming on Production". The Wall Street Journal. Retrieved 28 January 2009.
- "Global oil prices jump to 11-month highs". Petroleum World. Agence France-Presse. 9 July 2007.
- "Oil prices rally despite OPEC output hike". MSNBC. 15 June 2005.
- John Wilen (21 May 2008). "Oil prices pass $132 after government reports supply drop". Associated Press.[dead link]
- "Missile tension sends oil surging". CNN. Retrieved 26 April 2011.
- "Oil hits $100 barrel". BBC News. 2 January 2008.
- Iran nuclear fears fuel oil price, BBC News
- "Record oil price sets the scene for $200 next year". AME. 6 July 2006. Retrieved 29 November 2007.
- BP: Workbook of historical data (xlsx), London, 2012
- James Kanter (9 November 2007). "European politicians wrestle with high gasoline prices". International Herald Tribune.
- IMF study: Peak oil could do serious damage to the global economy
- Plumer, Brad (28 February 2012). "Rick Santorum thinks gas prices caused the recession. Is he right?". The Washington Post. Retrieved 29 February 2012.
- Fildes, M.; Nelson, S.; Sener, N.; Steiner, F.; Suntharasaj, P.; Tarman, R.T.; Harmon, R.R. (2007). "Marketing Opportunity Analysis for Daimler Chrysler's Sprinter Van Plug-in Hybrid Electric Vehicle". Management of Engineering and Technology, Portland International Center for: 1797–1810.
- "Household Vehicles Energy Use: Latest Data and Trends". US Government. Nov 2005.
- "Missing $4,155? It Went Into Your Gas Tank This Year". CNBC. Associated Press. 19 December 2011.
- Ana Campoy (20 June 2008). "Prices Curtail U.S. Gasoline Use". The Wall Street Journal. p. A4.
- Clifford Krauss (19 June 2008). "Driving Less, Americans Finally React to Sting of Gas Prices, a Study Says". The New York Times.
- Export Land Model discussion archive. TheOilDrum.com.
- Clifford Krauss (9 December 2007). "Oil-Rich Nations Use More Energy, Cutting Exports". The New York Times.
- Allan Gregg (13 November 2009). "Jeff Rubin on Oil and the End of Globalization". YouTube.
- stanford kay (8 August 2008). "IndustryWeek". Joe Thomas, Dean, Cornell University's Johnson School of Management.[dead link]
- wall street journal kay (10 March 2012). "China Posts Massive Trade Deficit". AARON BACK.
- International Monetary Fund (7 May 2011). "Oil Demand Price And Income Elasticities". The Oil Drum.
- Goodchild, Peter (29 October 2007). "Peak Oil And Famine:Four Billion Deaths". Countercurrents. Retrieved 21 August 2008.
- Pfeiffer, Dale Allen (2004). "Eating Fossil Fuels". From The Wilderness Publications. Retrieved 21 August 2008.
- P. Crabbè, North Atlantic Treaty Organization. Scientific Affairs Division (2000). "Implementing ecological integrity: restoring regional and global environmental and human health". Springer. p.411. ISBN 0-7923-6351-5
- Bradley, David (6 February 2004). "A Great Potential: The Great Lakes as a Regional Renewable Energy Source" (PDF). Buffalo's Green Gold Development Corporation. Archived from the original (PDF) on 25 March 2009. Retrieved 4 October 2008.
- Hirsch, Tim (24 December 2001). "Iceland launches energy revolution". BBC News. Retrieved 23 March 2008.
- Kunstler, James Howard (1994). Geography of Nowhere: The Rise And Decline of America's Man-Made Landscape. New York: Simon & Schuster. ISBN 0-671-88825-0
- James Howard Kunstler (February 2004). The tragedy of suburbia. Monterey, CA: TED: Ideas worth sharing.
- Vittorio E. Pareto, Marcos P. Pareto. "The Urban Component of the Energy Crisis" (PDF). Retrieved 13 August 2008.
- Peak Oil UK – PowerSwitch Energy Awareness – Must read: The Hirsch/DoE report – full text
- "Congress for the New Urbanism Transportation Summit to be Held in Portland 4–6 November". Retrieved 27 October 2009.[dead link]
- Committee for the Study on the Relationships Among Development Patterns, Vehicle Miles Traveled, and Energy Consumption (2009). Driving the Built Environment: The Effects of Compact Development on Motorized Travel, Energy Use, and CO2 Emissions – Special Report 298. National Academies Press. ISBN 0-309-14422-1.
- Center for the Advancement of the Steady State Economy
- How to talk about the end of growth: Interview with Richard Heinberg
- Implementation of Green Bookkeeping at Reykjavik Energy
- "Future Scenarios – Introduction". Retrieved 13 February 2009.
- "Islands of the Future" (video) (in English and Spanish). Vimeo. Retrieved 14 February 2014.
- Totnes | Transition Network
- "Rob Hopkins' Transition Handbook". Retrieved 7 March 2011.
- Business Insider - Death of peak oil - March 2013 -http://www.businessinsider.com/death-of-peak-oil-2013-3
- Forbes - No peak oil is really dead 17/07/2013 http://www.forbes.com/sites/modeledbehavior/2013/07/17/no-peak-oil-really-is-dead/
- "National Algal Biofuels Technology Roadmap" (PDF). US Department of Energy, Office of Energy Efficiency and Renewable Energy, Biomass Program. Retrieved 3 April 2014.
- Pienkos, P. T.; Darzins, A. (2009). "The promise and challenges of microalgal-derived biofuels". Biofuels, Bioproducts and Biorefining 3 (4): 431. doi:10.1002/bbb.159
- Darzins, A., 2008. Recent and current research & roadmapping activities: overview. National Algal Biofuels Technology Roadmap Workshop, University of Maryland.
- NRL news release http://www.nrl.navy.mil/media/news-releases/2014/scale-model-wwii-craft-takes-flight-with-fuel-from-the-sea-concept
- Kenneth Stier (20 March 2008). "The 'Peak Oil' Theory: Will Oil Reserves Run Dry?". CNBC. Retrieved 26 April 2011.
- Amy Gillentine (9 June 2006). "Oil shale exploration near Rangely: Bonanza or bust?". The Colorado Springs Business Journal.[dead link]
- John Laumer (26 December 2007). "A Return To Colorado Oil Shale?". TreeHugger.
- Charlie Rose. "A conversation with John Hofmeister". PBS.
- "BP: Preisschwankungen werden wahrscheinlich zunehmenen, Interview (in English) mit Dr. Christoph Rühl, Mittwoch 1". Euractiv. October 2008. Retrieved 11 July 2009.
- Financial Times Germany, 29 May 2008 Daniel Yergin: Öl am Wendepunkt (Oil at the turning point)
- "Myth: The World Is Running Out of Oil". ABC News. 12 May 2006. Retrieved 26 April 2011.
- Resourceship: An Austrian theory of mineral resources
- Resourceship: Expanding "Depletable" Resources
- Steve Maley (18 September 2011). "Hubbert's Peak or Yergin's Plateau?". Retrieved 19 September 2011.
- Maugeri, Leonardo. "Oil: The Next Revolution" Discussion Paper 2012-10, Belfer Center for Science and International Affairs, Harvard Kennedy School, June 2012. Retrieved 13 July 2012.
- Monbiot, George. "We were wrong on peak oil. There's enough to fry us all" The Guardian, 2 July 2012. Retrieved 13 July 2012.
- Mearns, Euan. "A Critical Appraisal of Leonardo Maugeri's Decline Rate Assumptions" The Oil Drum, 10 July 2012.
- Aleklett,Kjel (2012). Peeking at Peak Oil. Springer Science. ISBN 978-1461434238.
- Campbell, Colin J (2004). The Essence of Oil & Gas Depletion. Multi-Science Publishing. ISBN 0-906522-19-6.
- Campbell, Colin J (1997). The Coming Oil Crisis. Multi-Science Publishing. ISBN 0-906522-11-0.
- Campbell, Colin J (2005). Oil Crisis. Multi-Science Publishing. ISBN 0-906522-39-0.
- Deffeyes, Kenneth S (2002). Hubbert's Peak: The Impending World Oil Shortage. Princeton University Press. ISBN 0-691-09086-6.
- Deffeyes, Kenneth S (2005). Beyond Oil: The View from Hubbert's Peak. Hill and Wang. ISBN 0-8090-2956-1.
- Goodstein David (2005). Out of Gas: The End of the Age of Oil. WW Norton. ISBN 0-393-05857-3.
- Greer, J. M. (2013). Not the Future We Ordered: The Psychology of Peak Oil and the Myth of Eternal Progress. Karnac Books. ISBN 978-1-78049-088-5.
- Herold, D. M. (2012). Peak Oil. Hurstelung und Verlag. ISBN 978-3-8448-0097-5.
- Heinberg Richard (2003). The Party's Over: Oil, War, and the Fate of Industrial Societies. New Society Publishers. ISBN 0-86571-482-7.
- Heinberg, Richard (2004). Power Down: Options and Actions for a Post-Carbon World. New Society Publishers. ISBN 0-86571-510-6.
- Heinberg, Richard (2006). The Oil Depletion Protocol: A Plan to Avert Oil Wars, Terrorism and Economic Collapse. New Society Publishers. ISBN 0-86571-563-7.
- Heinberg, Richard and Lerch, Daniel (2010). The Post Carbon Reader: Managing the 21st Century's Sustainability Crises. Watershed Media. ISBN 978-0-9709500-6-2.
- Herberg, Mikkal (2014). Energy Security and the Asia-Pacific: Course Reader. United States: The National Bureau of Asian Research.
- Huber Peter (2005). The Bottomless Well. Basic Books. ISBN 0-465-03116-1.
- Kunstler James H (2005). The Long Emergency: Surviving the End of the Oil Age, Climate Change, and Other Converging Catastrophes. Atlantic Monthly Press. ISBN 0-87113-888-3.
- Leggett Jeremy K (2005). The Empty Tank: Oil, Gas, Hot Air, and the Coming Financial Catastrophe. Random House. ISBN 1-4000-6527-5.
- Leggett, Jeremy K (2005). Half Gone: Oil, Gas, Hot Air and the Global Energy Crisis. Portobello Books. ISBN 1-84627-004-9.
- Leggett Jeremy K (2001). The Carbon War: Global Warming and the End of the Oil Era. Routledge. ISBN 0-415-93102-9.
- Lovins Amory et al. (2005). Winning the Oil Endgame: Innovation for Profit, Jobs and Security. Rocky Mountain Institute. ISBN 1-881071-10-3.
- Pfeiffer Dale Allen (2004). The End of the Oil Age. Lulu Press. ISBN 1-4116-0629-9.
- Newman Sheila (2008). The Final Energy Crisis (2nd ed.). Pluto Press. ISBN 978-0-7453-2717-4. OCLC 228370383.
- Roberts Paul (2004). The End of Oil. On the Edge of a Perilous New World. Boston: Houghton Mifflin. ISBN 978-0-618-23977-1.
- Ruppert Michael C (2005). Crossing the Rubicon: The Decline of the American Empire at the End of the Age of Oil. New Society. ISBN 978-0-86571-540-0.
- Simmons Matthew R (2005). Twilight in the Desert: The Coming Saudi Oil Shock and the World Economy. Hoboken, N.J.: Wiley & Sons. ISBN 0-471-73876-X.
- Simon Julian L (1998). The Ultimate Resource. Princeton University Press. ISBN 0-691-00381-5.
- Stansberry Mark A, Reimbold Jason (2008). The Braking Point. Hawk Publishing. ISBN 978-1-930709-67-6.
- Tertzakian Peter (2006). A Thousand Barrels a Second. McGraw-Hill. ISBN 0-07-146874-9.
- Vassiliou, Marius (2009). Historical Dictionary of the Petroleum Industry. Scarecrow Press (Rowman & Littlefield). ISBN 0-8108-5993-9.
- Tinker Scott W (25 June 2005). "Of peaks and valleys: Doomsday energy scenarios burn away under scrutiny". Dallas Morning News.[dead link]
- Benner Katie (7 December 2005). "Lawmakers: Will we run out of oil?". CNN.
- Benner Katie (3 November 2004). "Oil: Is the end at hand?". CNN.
- "The future of oil". Foreign Policy.
- Robert Hirsch (June 2008). "Peak oil: "A significant period of discomfort"". Allianz Knowledge.[dead link]
- Didier Houssin, International Energy Agency (May 2008). "Oil: "If you invest more, you find more"". Allianz Knowledge.[dead link]
- Campbell Colin, Laherrère Jean. "The end of cheap oil". Scientific American.
- Williams Mark. "The end of oil?". Technology Review (MIT).[dead link]
- Appenzeller Tim. "The end of cheap oil". National Geographic.
- Lynch Michael C. "The new pessimism about petroleum resources".[dead link]
- Leonardo Maugeri (20 May 2004). "Oil: Never Cry Wolf—Why the Petroleum Age Is Far from over". Science.
- Roberts Paul (August 2004). "Last Stop Gas". Harper's Magazine: 71–72.[dead link]
- Porter, Adam (10 June 2005). "'Peak oil' enters mainstream debate". BBC News. Retrieved 26 March 2010.
- Alex Kuhlman (June 2006). "Peak oil and the collapse of commercial aviation" (PDF). Airways.
- Cochrane Troy (4 January 2008). "Peak oil?: Oil supply and accumulation". Cultural Shifts.
- Jaeon Kirby & Colin Campbell (30 May 2008). "Life at $200 a barrel". Maclean's.
- Stefan Schaller (28 September 2010). "The Theory behind Peak Oil".
- Ariel Schwartz (9 February 2011). "WikiLeaks May Have Just Confirmed That Peak Oil Is Imminent". Fast Company.
- Matthew Schneider-Mayerson (2013). "From politics to prophecy: environmental quiescence and the peak-oil movement" (PDF). Environmental Politics.
- The End of Suburbia: Oil Depletion and the Collapse of the American Dream (2004)
- Crude Awakening: The Oil Crash (2006)
- The Power of Community: How Cuba Survived Peak Oil (2006)
- Crude Impact (2006)
- What a Way to Go: Life at the End of Empire (2007)
- Crude (2007) Australian Broadcasting Corporation documentary [3 x 30 minutes] about the formation of oil, and humanity's use of it
- PetroApocalypse Now? (2008)
- Blind Spot (2008)
- Gashole (2008)
- Collapse (2009)
- Oil Education TV: Series of video interviews with international oil industry experts
- Peak Oil: A Staggering Challenge to “Business As Usual”
- KMO. "The C-Realm (feed)". http://c-realmpodcast.podomatic.com/ (Podcast).
- Seth Moser-Katz and Justin Ritchie. "The Extraenvironmentalist (feed)". http://extraenvironmentalist.com/ (Podcast).
- Duncan Crary. "The KuntslerCast (feed)". http://kunstlercast.com/ (Podcast).
- Steve Patterson. "Two Beers with Steve". http://twobeerswithsteve.libsyn.com/ (Podcast).
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