Our Finite World

What has gone wrong with the economy? Can it be fixed?

Posted on October 6, 2025 by Gail Tverberg

We are at a time when there seems to be far more conflict than in the past. At least part of the problem is that slowing growth in the world economy is making it more difficult to repay debt with interest, especially for governments. A related issue is that government promises for pensions and healthcare costs are becoming more difficult to pay. Donald Trump is trying to make numerous changes that are distasteful both to other countries and to many people living within the US. What is going wrong with the economy?

In my view, major cracks are developing in the economy because we are heading toward a collapse scenario of the type that Dr. Joseph Tainter talks about in his book, “The Collapse of Complex Societies.” No one has told the general population about the potential problem, partly because they don’t fully understand the issues themselves, and partly because the underlying causes are too frightening to discuss with the public. At the root of these collapse-related issues is a physics issue, which is only gradually being fully understood.

In this post, I try to describe some of the issues involved. I don’t believe that the situation is hopeless. At the end, I discuss where we are now, relative to historical patterns, and some reasons to be optimistic about the future.

[1] Economies need to “dissipate” energy on a regular basis, just as humans need to eat food on a regular basis.

In physics terms, economies and all plants and animals are dissipative structures. So are tornadoes, hurricanes, and ecosystems of all kinds. All these structures have finite lifetimes. They all need to “dissipate” energy to continue performing their expected functions. Humans require a variety of foods to digest; economies require energy types that match their built infrastructure. The amount of energy required by an economy tends to rise with its human population.

Figure 1 shows that since 2008, world energy supply growth has only barely been keeping up with world population growth. Physics tells us that energy dissipation is required to create any part of GDP, so energy consumption that rises with population growth should not be surprising.

Graph depicting World Energy Consumption Per Capita from 1965 to 2022, highlighting significant periods such as rapid growth from 1965 to 1973, challenges from 1973 to 2001, and the debt bubble from 2008 to 2024. — Figure 1. World energy consumption per capita from 1965 through 2024, based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute, with fitted trend lines.

The dips in per capita energy consumption in the latest period correspond to major recessions in 2008 and 2020. Rapid growth in per capita energy consumption seems to take place when growth in some low-priced fuel temporarily becomes available.

[2] Low energy prices are at least as important to the economy as low food prices are to individual households. Low energy prices seem to allow investments that pay back well.

If a family spends 10% of its income on food, the family has lots of money left over for non-essentials, such as a vehicle, trips to movies, and even a foreign vacation. If a family spends 50% of its income on food (or even worse, 75%), any little “bump in the road” can cause a crisis. There is little money available to spend on housing or a vehicle.

Figure 2 shows that oil prices were under $20 per barrel (adjusted to today’s price level) in the 1948-1972 period. This corresponds quite closely with the rapid-growth early period shown on Figure 1.

Graph showing the average annual inflation-adjusted oil price per barrel from 1948 to 2024, highlighting low prices before 1970. — Figure 2. Inflation-Adjusted Brent Oil equivalent oil prices, based on data from the *2025 Statistical Review of World Energy*, published by the Energy Institute, for values through 2024. Data for 2025 based on EIA information.

The economy was able to add many types of helpful “complexity” during this early period because of the growing supply of cheap oil. It could add interstate highways and many miles of pipelines. Inventions included television, air conditioning, early computers, and contraceptive pills. Many families were able to buy a vehicle for the first time. Women started to work outside the home in much greater numbers.

Many of these early types of complexity paid back well. For example, interstate highways made travel faster. Early computers could handle many bookkeeping chores. Contraceptive pills made it possible for women to plan their families. Without so many children, working outside the home was more of a possibility for women.

[3] Many indirect changes took place between 1948 and 1970 that would be harder to maintain if oil supplies stopped growing as rapidly and as inexpensively as they did during this early period.

If we look back, we know that in the 1600s and 1700s, people worked pretty much all their lives. It was the growth in energy supplies in the 1800s and 1900s that allowed governments to expand their services. They could promise to provide pensions and health care benefits. The rapid growth in oil supplies in the 1948 to 1970 period allowed even more expansion of government benefits, as well as other changes.

Line graph showing U.S. field production of crude oil from 1920 to 2022, illustrating peaks and trends in production levels. — Figure 3, Chart of US crude oil production by the EIA.

US Medicare was added in 1965, providing healthcare benefits to the elderly and disabled. Schools were integrated, promising better education for Black children. After actuarial models started to suggest that pensions could pay out a great deal in pension benefits, businesses started to award pensions to workers, in addition to Social Security.

Social standards started changing, too. Dating couples didn’t have to worry about the woman accidentally getting pregnant, at least in theory. No fault divorce became available. Government programs became available to provide funds to single or divorced parents with children.

Of course, if wages of young people started to stagnate, or if there were too many divorces of low-wage people, this whole approach wouldn’t work as well. It would be harder to tax wages enough to pay for the many benefits for the elderly, the disabled, and those with low incomes.

[4] Governments facing the problem of high-cost oil did exactly what families with suddenly high-cost food would do, if they had unlimited credit cards. They ran up increasing amounts of debt, to pay for all the promised programs.

We know with our own finances that if we are spending too much on food, we can temporarily work around this problem by maxing out our credit cards and adding more debt in other ways. I believe that the world economy has been doing something similar for a long time.

The push toward added debt has become much greater since 2008 (Figure 1), but the general trend toward increased debt started back in the early 1980s, about the time Ronald Reagan and Margaret Thatcher began their terms. Businesses decided that they needed to use what they now called “leverage” to obtain higher profits.

The debt that economies added was a kind of complexity. If the debt was invested in factories or industry that paid back well, everything went well.

But not all the uses of debt went into approaches that paid back well. For example, paying doctors to give high-priced treatments to elderly people who were certain to die within a few months did not provide much benefit to the economy, apart from the money the physician and the rest of the health care system obtained to spend on other goods and services.

Another way the growing debt was used was to invest in international trade. Companies found that they could outsource many kinds of manufacturing processes to low-wage countries in Southeast Asia, leading to cost savings relative to paying for high-priced US labor. (Human labor is a type of energy used by the economy.) In these Southeast Asian countries, coal was used for many processes, making the energy part of manufacturing costs cheaper, too.

The US and other Advanced Economies (defined as members of the Organization for Economic Development (OECD)) seemed to benefit because goods made in Southeast Asia were cheaper than what Advanced Economies could make for themselves. Two major issues arose, however:

a. Wages for the less-skilled workers in the US tended to stagnate or fall.

Line graph showing the comparison of US worker pay and productivity growth from 1948 to 2023, indicating a significant divergence after the peak in oil production around 1970. — Figure 4. Based on data of the Economic Policy Institute.

One reason for stagnating pay was because of wage competition with low-wage countries. As a result, the middle class has tended to disappear. Wage disparity has become a problem.

b. Advanced Economies tended to lose the ability to make many essential goods and services for themselves. If a shortage of inputs were to occur in the future, they would be at a disadvantage.

[5] Now the consequences of too many governmental promises are becoming clear.

Advanced Economies around the world are finding their debt levels ballooning. Much of their higher expenditures are on programs citizens expect to continue forever.

A pie chart illustrating the breakdown of the 2024 US Federal Government Spending, highlighting categories like Interest on Debt, Social Security, Medicare, Defense, Discretionary Non-Defense Spending, and Other Mandatory Programs. — Figure 5. Based on data of the Congressional Budget Office.

US leaders can see that practically the only way that they can fix this situation is by cutting back on many programs the public depends on. If a leader like Trump has a lot of power, he can also try to get a larger share of the world’s output by imposing tariffs on the output of other countries. Neither of these approaches will be popular with very many people. If nothing else, there will be conflict over who gets cut out if cuts are necessary.

Other Advanced Nations face similar problems.

[6] Leaders have not told the public about the likelihood of a shortfall of energy supplies and the difficulties this would cause.

Physicists have been warning that a shortfall in fossil fuel supplies was likely to occur since the 1950s. More recent models, such as the modeling represented in the 1972 book, The Limits to Growth, gave a similar picture.

Part of the confusion has been that economists have given an optimistic view of what is ahead. Their (oversimplified) models indicate that in the case of a shortfall, prices will rise. With these high prices, a huge amount of difficult-to-extract fossil fuels would shortly become available, or substitutes would be found.

In my opinion, the model of economists is incorrect. With the middle class shrinking, there is not enough “demand” to keep the price of any commodity up for very long. Instead, prices tend to bounce up and down. This can be seen for oil on Figure 2. Pricing represents a two-way tug-of-war: Prices need to be high enough for the producers to make a profit, but end products (including food grown and transported using oil) must be inexpensive enough for consumers to afford.

With one story being told by the physicists and another by the economists, competing belief systems arose:

One saying that there would be a major shortage of fossil fuels, particularly oil, starting in the first half of the 21st century because the only fossil fuels we can extract are the fairly accessible fossil fuels. There are constraints caused by geology that seem to be difficult to work around, arising from limitations caused by physics.
The other saying that any such problems lie far in the future. We should be able to develop new techniques quickly. Otherwise, any shortfall should cause prices to rise high enough to pay for more expensive techniques, or to find substitutes.

Both sides could see a need to limit consumption, one side because we appeared not to have enough, and the other because, if we really could extract as much fossil fuels as they considered possible, models suggested that there would be a climate problem.

To try to satisfy both sides, politicians decided to push the “save the world from CO2 emissions” narrative. This approach had an added benefit: Businesses wanting to import low-priced goods and services, made in China and other low-cost countries, very much favored it. The limitation on CO2 emissions of the 1997 Kyoto Protocol was simply a local limitation on emissions, not a limitation on CO2 on imported goods.

[7] The Kyoto Protocol, as implemented, has had the opposite effect from the hoped-for reduction in world CO2 from fossil fuels.

What has happened with the 1997 Kyoto Protocol is precisely what businesses, looking to sell low-cost goods made in Southeast Asia, wanted. Manufacturing and other types of industry have tended to move out of the Advanced Economies, and into lower-cost countries.

A graph illustrating world energy consumption from 1965 to 2022, showing trends for advanced economies and others, with a significant increase noted after China joined the World Trade Organization in December 2001. — Figure 6. Energy consumption separately for OECD and non-OECD countries, based upon data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

Total world CO2 emissions have risen, rather than fallen.

Line graph showing CO2 emissions from fossil fuels from 1965 to 2022, highlighting world emissions in blue, advanced economies in orange, and other than advanced economies in green, with key events marked in 1997 and 2001. — Figure 7. CO2 amounts related to the burning of fossil fuels, based upon data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

[8] The supposed transition to wind turbines and solar panels is not going well.

Wind turbines and solar panels, the way that they are now being added to the overall electric grid, are having far less benefit than most people had hoped. Of course, their benefit is only with respect to electricity production. Farming, transportation of many kinds, and other industries use a great deal of oil and coal, in addition to grid electricity.

Figure 8 shows a breakdown of world energy consumption by type. Electricity from wind turbines and solar panels makes up only the tiny reddish portion at the top. It represents only 3% of the total energy consumption.

A chart displaying world energy consumption by type from 1965 to 2024, showing fossil fuels accounting for 87% of consumption, while wind and solar contribute 3%. — Figure 8. Breakdown of world energy consumption by type, based upon data of the *2025 Statistical Review of World Energy*, published by the Energy Institute. “Other” includes ethanol, wood chips, sawdust burned for electricity, geothermal, and other miscellaneous types.

We usually hear about wind and solar electricity as a percentage of electricity production. This is a higher percentage, which averages close to 15%.

Bar graph showing the 2024 share of electricity production from wind and solar energy by different regions including World, Australia, EU, China, US, Japan, India, Africa, Mid-East, and Russia. — Figure 9. Wind and solar electricity share of electricity production, based upon data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

The areas with the highest percentage of wind and solar electricity generation are already experiencing blackouts because differences from grid electricity have not sufficiently been compensated for. For example, Spain experienced a 10-hour blackout on April 28, 2025, because of low “inertia.” Inertia usually comes from the rotating turbines used in the production of electricity using coal, natural gas, nuclear, or hydroelectric.

Bar graph showing the share of total energy consumption from wind and solar for various regions in 2024, including World, Australia, EU, China, US, Japan, India, Africa, and Mid-East Russia. — Figure 10. Wind and solar electricity share of total energy consumption, based upon data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

Figure 10 shows that in 2024, wind and solar electricity amounted to between 5% and 6% of energy consumption in Australia and the EU. Their high level of usage helped to bring the world average up to a little under 3% of total energy.

[9] There are important things about ecosystems in general and our economy in particular that we are not told about.

I don’t think that educators and politicians are generally aware of the following issues relating to ecosystems and our economy:

a. Ecosystems are built to be resilient. As dissipative structures, ecosystems and economies are “self-organizing structures” powered by energy, just as the human body is. We need not fret that we are responsible for species extinction. Ecosystems, like plants and animals, have short lifetimes. A replacement ecosystem will quickly develop if adequate resources (such as sunlight and water) are available. Furthermore, the waste (or pollution) of one species helps provide the nutrition for other species; CO2 provided by burning fuel helps plants grow. Over the long history of life on earth, 99.9999% of plant and animal species have died out and been replaced by other species.

b. Ecosystems and economies also tend to heal themselves, just as human wounds tend to heal themselves. If a fire, or a type of beetle, destroys an ecosystem, replacement plants and accompanying animals will soon find a way to populate the area. If a major government fails, or banks fail, somehow workarounds will be found to take their place. Human systems need order; if governments fail, religious systems that provide order may become more important.

c. Humans, unlike other animals, have a built-in need for supplemental energy, such as firewood, or fossil fuel energy. Over one million years ago, pre-humans figured out how to cook part of their food. Because of this cooked food, their jaws and digestive apparatus could shrink in size. The improved food supply allowed their brains to improve in complexity. Also, cooked food greatly reduced the time required for chewing, allowing more time for toolmaking and crafts. Heat is also important for killing pathogens in water.

d. Humans are smarter than other animals, allowing the population of humans to grow, while the population of many other species tends to fall. This issue continues today:

A graph displaying world population growth divided between 'Advanced Economies' and 'Other than Advanced Economies' from 1965 to 2022, showing a significant increasing trend in both categories. — Figure 11. World population, divided between OECD countries and non-OECD Countries, based upon data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

The large rise in the population of the less advanced economies contributes to the huge number of immigrants wanting new homes in higher income countries. The book, Too Smart for our Own Good by Craig Dilworth, discusses this issue further.

e. It is ultimately the rising population issue discussed in (d) that leads to the typical overshoot and collapse situation. The issue is that available resources do not rise fast enough (in the area, or with the technology available) to provide enough physical goods and services for the population. If a new approach can be developed, or a neighboring area with additional resources can be conquered, population can start to grow again. Figure 12 represents my attempt to show the shape of a typical secular cycle (also called overshoot and collapse cycle) based on Turchin and Nefedov’s research regarding collapses of agricultural economies.

Graph depicting the shape of a typical "Secular Cycle," showing the timeline of potential societal collapse over 300 years, including stages of growth, stagnation, crisis, and intercycle phases. — Figure 12. Chart by author based on information provided in Turchin and Nefedov’s book, *Secular Cycles*. The extent of the population decline in the Crisis Period varies from greatly among secular cycles. The decline shown likely overstates the typical case.

f. Outgrowing our resource base is not a phenomenon that began with fossil fuels. In 2020, I wrote a post explaining how Humans Left Sustainability Behind as Hunter-Gatherers. In 1796, when world population was about one billion, Robert Thomas Malthus wrote about population growing faster than food production. This was before fossil fuels were widely used. Now, about 230 years later, population has risen to eight billion, thanks to the availability of fossil fuels. We need major innovations, or additional energy resource types, if we want to work around obstacles now.

[10] We seem to be reaching the end of the Stagflation Period in Figure 12. We are likely starting along the long downslope of the Crisis Period.

In my opinion, the Stagflation Period began when US oil production peaked, in 1970. The estimated length of the Stagflation Period is 50 to 60 years. The 1970 peak is now 55 years behind us, so the timing is just as expected.

The Crisis period is next, listed as lasting perhaps 20 to 50 years. This is the period when governments and financial systems fail. What we think of as national boundaries can be expected to change, while countries themselves will generally become smaller. With less energy per capita, the quantity of government services provided can be expected to fall. Government organizations can be expected to become smaller and simpler. It is unlikely that democracies can continue; authoritarian rulers with a support staff are more likely. Plagues may cause the overall population to fall.

We don’t know if the pattern shown on Figure 12 is the correct model for modern times, but we should not be surprised if things do change in this direction. Governments may fail, and, in fact, the replacement governments may fail repeatedly.

I believe that uranium production is also constrained by prices that never go high enough, for long enough, to increase supply.

To pull us out of this predicament, new energy supplies will need to be developed, or old ones dramatically improved. At the same time, the system will need to reorganize in such a way to use these new, improved energy supplies. I would expect that in the new system, the general trend will once again be toward more complexity. New customs and new variations on religions may also develop.

It is theoretically possible that AI could help us find solutions quickly, so we never go deeply into the Crisis Period.

If much of the world economy does temporarily head downward because of limited fossil fuel supplies, some researchers might continue to work on solutions. Other people may temporarily need to focus on growing enough food, close to where it is needed, and finding sufficient fuel sources to at least cook much of this food. Nice things we are used to, such as home heating and repaving of roads by governments, are likely to be cut back greatly.

[11] Hope for the future.

We know that there are many ideas that are being worked on now that might be helpful for the future. They just aren’t ready to be scaled up, yet.

At the same time, some energy types we have today might work better if used in a different way. For example, solar panels seem to provide intermittent electricity for a long period, with relatively little maintenance. If they can be made to work where intermittent electricity is sufficient, and their use directed specifically to those locations, perhaps this might be a better use for them than putting them on the grid. Solar panels are made with fossil fuels, but they do act to stretch the electricity from those fuels.

Another possibility for hope comes through greater efficiency in using fossil fuels. History suggests that if we can figure out how to use fossil fuels more efficiently, the price of fossil fuels can rise higher. With a higher (inflation-adjusted) price, more oil and other fossil fuels can perhaps be extracted.

One thing that strikes me is the fact that economies are put together in an amazingly organized manner, with humans seeming to be put in charge of them. Everything I can see seems to suggest that there is a Higher Power, which some might call God, that is behind everything that happens. People talk about economies being self-organizing. However, in a way, it is as if a Higher Power is helping organize things for us. It appears to me that creation is an ongoing process, not something that stopped 13.8 billion years ago or 6,000 years ago.

Seeing how ecosystems heal themselves, and how humans have made it through many secular cycles so far, gives me hope for the future.

Posted in Energy policy, Financial Implications, oil shortages | Tagged economic collapse, limits to growth, oil prices, peak oil | 1,621 Comments

Sierra Club talk that may be of interest

Posted on September 13, 2025 by Gail Tverberg

One of the chapters of the Sierra Club of Minnesota has asked Joseph Tainter and me to give Keynote speeches on October 25 at what is being billed as Minnesota’s First DeGrowth Summit. On site space is pretty limited, but free viewing will be available by internet.

If you want to attend in person, you should probably sign up soon.

This is the notice that the organizers have said that I can share:

Minnesota’s First DeGrowth Summit – October 25, 2025

The DeGrowth Summit, hosted by the Sierra Club North Star Chapter’s DeGrowth Team, will bring together organizers, artists, gardeners, educators, and community members to share skills, spark collaborations, and celebrate the many ways we’re resisting extractive economies and creating thriving local futures.

There are 3 ways to participate in the event: The in-person event is held in Minneapolis, MN where there will be presentations by two keynote speakers, Gail Tverberg and Joseph Tainter. In addition it will bring together organizers, artists, gardeners, educators, and community members to share skills, spark collaborations, and celebrate the many ways we’re resisting extractive economies and creating thriving local futures. Expect food, drop-in spaces, workshops, and a vibrant marketplace of ideas—from climate justice to co-ops, repair culture to Indigenous sovereignty. This event is free and you can register at: www.tinyurl.com/degrowthsummit

The second option is a “Watch Party” in Rochester, MN. Here we will gather at the Squash Blossom Farm for lunch and watch the live stream together. After the live stream is done, Gail will be arriving from Minneapolis to have a “Fireside Chat” with the group followed by a bonfire and wiener roast. The cost is $25 which covers the expense of lunch, dinner and the event space. Space is limited to 50 so sign up soon at:

Rochester DeGrowth Summit Watch Party

The final way to participate is to view the live stream online. The live stream will include the keynote presentations and two other presentations TBD. You can register for this at www.tinyurl.com/degrowthsummit . At the bottom of the registration make sure to check the box for virtual and a link will be sent to you prior to the event.

Some additional information:

The Minneapolis Event is at New City Center, 3104 16th Ave S, Minneapolis, MN 55407

The Watch Party at Squash Blossom Farm is at 7499 60th Ave NW, Oronoco, MN 55960

This is the graphic shown in early web material.

A colorful flyer for Minnesota's First Degrowth Summit, featuring text that highlights the date, time, and location of the event, along with design elements like stars, trees, and a snail. The flyer promotes workshops, mutual aid, and economic justice while indicating the event is kid-friendly and free, with a QR code linking to additional information.

I expect to put up a “regular” post in the next few days.

Posted in Planning for the Future | 1,694 Comments

Why oil prices don’t rise to consistently high levels

Posted on August 19, 2025 by Gail Tverberg

The supply and demand model of economists suggests that oil prices might rise to consistently high levels, but this has not happened yet:

Line graph showing average annual Brent oil prices in 2024 US dollars from 1965 to 2022 — Figure 1. Average annual Brent equivalent inflation-adjusted crude oil prices, based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute. The last year shown is 2024.

In my view, the economists’ model of supply and demand is overly simple; its usefulness is limited to understanding short-term shifts in oil prices. The supply and demand model of economists does not consider the interconnected nature of the world economy. Every part of GDP requires energy consumption of some type. The price issue is basically a physics issue because the world economy operates under the laws of physics.

In this post, I will try to explain what really happens when oil supply is constrained.

[1] Overview: Why Oil Prices Don’t Permanently Rise; What Happens Instead

My analysis indicates that there are three ways that long-term crude oil prices are held down:

(a) Growing wage and wealth disparities act to reduce the “demand” for oil. As wage and wealth disparities widen, the economy heads in the direction of a shrinking middle class. With the shrinking of the middle class, it becomes impossible to bid up oil prices because there are too few people who can afford their own private cars, long distance travel, and other luxury uses of oil. Strangely enough, this dynamic is a major source of sluggish growth in oil demand.

(b) Politicians work to prevent inflation. Oil is extensively used in food production and transport. If crude oil prices rise, food prices also tend to rise, making citizens unhappy. In fact, inflation in general is likely to rise, as it did in the 1970s. Politicians will use any method available to keep crude oil prices down because they don’t want to be voted out of office.

(c) In very oil deficient locations, such as California and Western Europe, politicians use high taxes to raise the prices of oil products, such as gasoline and diesel. These high prices don’t get back to the producers of crude oil because they are used directly where they are collected, or they act to subsidize renewables. My analysis suggests that indirectly this approach will tend to reduce world crude oil demand and prices. Thus, these high taxes will help prevent inflation, especially outside the areas with the high taxes on oil products.

Instead of oil prices rising to a high level, I expect that the methods used to try to work around oil limits will lead to fragility in many parts of the economic system. The financial system and international trade are particularly at risk. Ultimately, collapse over a period of years seems likely.

Underlying this analysis is the fact that, in physics terms, the world economy is a dissipative structure. For more information on this subject, see my post, The Physics of Energy and the Economy.

[2] Demand for oil is something that tends not to be well understood. To achieve growing demand, an expanding middle class of workers is very helpful.

Growing demand for oil doesn’t just come from more babies being born each year. Somehow, the population needs to buy this oil. People cannot simply drive up to a gasoline station and honk their horns and “demand” more oil. They need to be able to afford to drive a car and purchase the fuel it uses.

As another example, switching from a diet which reserves meat products for special holidays to one that uses meat products more extensively tends to require more oil consumption. For this type of demand to rise, there needs to be a growing middle class of workers who can afford a diet with more meat in it.

These are just two examples of how a growing middle class will tend to increase the demand for oil products. Giving $1 billion more to a billionaire does not have the same impact on oil demand. For one thing, a billionaire cannot eat much more than three meals a day. Also, the number of vehicles they can drive are limited. They will spend their extra $1 billion on purchases such as shares of stock or consultations with advisors on tax avoidance strategies.

[3] In the US, there was a growing middle class between World War II and 1970, but more recently, increasing wage and wealth disparities have become problems.

There are several ways of seeing how the distribution of income has changed.

Line graph showing U.S. income shares for the top 1% and top 0.1% of households from 1913 to 2013, highlighting significant increases in the top 1% and fluctuations in the top 0.1%. — Figure 2. U. S. Income Shares of Top 1% and Top 0.1%, Wikipedia exhibit by Piketty and Saez.

Figure 2 shows an analysis of how income (including capital gains) has been split between the very rich and everyone else. What we don’t see in Figure 2 is the fact that total income (calculated in this way) has tended to rise in all these periods.

Back in the 1920s (known as “the roaring 20s”), income was split very unevenly. There was a substantial share of very wealthy individuals. This gradually changed, with ordinary workers getting more of the total growing output of the economy. The share of the economy that the top earners obtained hit a low in the early 1970s. Thus, there were more funds available to the middle class than in more recent years.

Another way of seeing the problem of fewer funds going to ordinary wage earners is by analyzing wages and salary payments as a share of US GDP.

Line graph depicting the percentage of wages and salaries as a share of US GDP from 1944 to 2024, showing a downward trend. — Figure 3. Wages and salaries as share of US GDP, based on data of the US Bureau of Economic Analysis.

Figure 3 shows that wages and salaries as a percentage of GDP held up well between 1944 and 1970, but they have been falling since that time.

Furthermore, we all can see increasing evidence that young people are not doing as well financially as their parents did at the same age. They are not as likely to be able to afford to buy a home at a young age. They often have more college debt to repay. They are less able to buy a vehicle than their parents. They are struggling to find jobs that pay well enough to cover all their expenses. All these issues tend to hold down oil demand.

Since 1981, falling interest rates (shown in Figure 6, below) have allowed growing wage disparities to be transformed into growing wealth disparities. This has happened because long-term interest rates have fallen over most of this period. With lower interest rates, the monthly cost of asset ownership has fallen, making these assets more affordable. High-income individuals have disproportionately been able to benefit from the rising prices of assets (such as homes and shares of stock), because with higher disposable incomes, they are more able to afford such purchases. As a result, since 1981, wealth disparity has tended to increase as wage disparity has increased.

[4] Governments talk about the growing productivity of workers. In theory, this growing productivity should act to raise the wages of workers. This would maintain the buying power of the middle class.

Line graph showing the trend in average productivity growth in the US from 1948 to 2023, highlighting quarterly growth with varying colored lines to indicate specific time periods. — Figure 4. Productivity growth by quarter, relative to productivity in the similar quarter one year earlier, based on data of the Bureau of Labor Statistics, as recorded by the Federal Reserve of St. Louis in its data base. The last quarter shown ends June 30, 2025.

Figure 4 shows that productivity growth was significantly higher in the period between 1948 and 1970 than in subsequent years. Figure 2 shows that before 1970, at least part of the productivity growth acted to raise the incomes of workers. More recently, productivity growth has been lower. With this lower productivity growth, Figure 2 shows that wage-earners are especially being squeezed out of productivity gains. It appears that most of the growth attributable to productivity gains is now going to other parts of the economy, such as the very rich, the financial sector, and the governmental services sector.

The changes the world has seen since 1970 are in the direction of greater complexity. Adding complexity tends to lead to growing wage and wealth disparities. Figure 4 seems to indicate that with added complexity, productivity per worker still seems to rise, but not as much as when the economic system grew primarily due to growing fossil fuel usage leveraging the productivity of workers.

Figure 4 shows data through June 30, 2025. Note that productivity in the latest period is lower than in earlier periods, even with the early usage of Artificial Intelligence. This is a worrying situation.

[5] The second major issue holding oil prices down is the fact that if crude oil prices rise, food prices also tend to rise. In fact, overall inflation tends to escalate.

Oil is extensively used in food production. Diesel is used to operate nearly all large farm machinery. Vehicles used to transport food from fields to stores use some form of oil, often diesel. Transport vehicles for food often provide refrigeration, as well. International transport, by jet or by boat also uses oil. Companies making hybrid seeds use oil products in their processes and distribution.

Furthermore, even apart from burning oil products, the chemical qualities of petroleum are used at many points in food production. The production of nitrogen fertilizer often uses natural gas. Herbicides and insecticides are made with petroleum products.

Because of these considerations, if oil prices rise, the cost of producing food and transporting it to its destination will rise. In fact, the cost of transporting all goods will rise. These dynamics will tend to lead to inflation throughout the system. When oil prices first spiked in the 1970s, inflation was very much of an issue, both for food and for goods in general. No one wants a repetition of a highly inflationary scenario.

Politicians will be voted out of office if a repetition of the oil price spikes of the 1970s takes place. As a result, politicians have an incentive to hold oil prices down.

**[6] Oil prices that are either too high for the consumer or too low for the producer will bring the economy down.**

We just noted in Section [6] that oil consumers do not want the price of oil to be too high. There are multiple reasons why oil producers don’t want oil prices to be too low, either.

A basic issue is that the cost of oil production tends to rise over time because the easiest to extract oil is produced first. This dynamic leads to a need for higher prices over time, whether or not such higher prices actually occur. If prices are chronically too low, oil producers will quit.

A second issue is the fact that many oil exporting countries depend heavily on the tax revenue that can be collected from exported oil. OPEC countries often have large populations with very low incomes. Oil prices need to be high enough to provide food subsidies for an ever-growing population of poor citizens in these countries, or the leaders will be overthrown.

Graph depicting OPEC fiscal break-even prices for various member countries, showing the relationship between cumulative petroleum production and the fiscal break-even price in USD per barrel. — Figure 5. OPEC Fiscal Breakeven prices from 2014, published by APICORP.

Figure 5 shows required breakeven prices for oil producers in the year 2014, considering their need for tax revenue to support their populations, in addition to the direct costs of production. The current Brent Oil price is only about $66 per barrel. If the breakeven price remains at the level shown in 2014, this price is too low for every country listed except Qatar and Kuwait.

No oil exporting country will point out these price problems directly, but they will tend to cut off oil production to try to get oil prices up. In the recent past, this has been the strategy.

OPEC can also try a very different strategy, trying to get rid of competition by temporarily dumping stored-up oil onto the market, to lower oil prices to try to harm the financial results of its export competition. This seems to be OPEC’s current strategy. OPEC knows that US shale producers are now near the edge of cutting back greatly because depletion is raising their costs and reducing output. OPEC hopes that by obtaining lower prices (such as the $66 per barrel current price), it can push US shale producers out more quickly. As a result, OPEC hopes that oil prices will rebound and help them out with their price needs.

I have had telephone discussions with a former Saudi Aramco insider. He claimed that OPEC’s spare capacity is largely a myth, made possible by huge storage capacity for already pumped oil. It is also well known that OPEC’s (unaudited) oil reserves appear to be vastly overstated. These myths make the OPEC nations appear more powerful than they really are. OECD nations, with a desire for a happily ever after ending to our current oil problems, have eagerly accepted both myths.

To extract substantially more oil, the types of oil that are currently too expensive to extract (such as very heavy oil and tight oil located under metropolitan areas) would likely need to be developed. To do this, crude oil prices would likely need to rise to a much higher level, such as $200 or $300 per barrel, and stay there. Such a high price would lead to stratospherically higher food prices. It is hard to imagine such a steep rise in oil prices happening.

[7] The third major issue is that politicians in very oil deficient areas have been raising oil prices for consumers through carbon taxes, other taxes, and regulations.

Strangely enough, in places where the lack of oil supply is extreme, politicians follow an approach that seems to be aimed at reducing what little oil supply still exists. In this approach, politicians charge high taxes (“carbon” and other types) on oil products purchased by consumers, such as gasoline and diesel. They also implement stringent regulations that raise the cost of producing end products from crude oil. California and many countries in Western Europe seem to be following this approach.

With this approach, taxes and regulations of many kinds raise oil prices paid by customers, forcing the customer to economize. Some of the money raised by these taxes may go to help subsidize renewables, but virtually none of the additional revenue from consumers can be expected to go back to the companies producing the oil.

I would expect these high local oil prices will slightly reduce the world price of crude oil because of the reduced demand from areas using this approach (such as California and Western Europe). Demand will be reduced because oil prices will become unaffordably high for consumers in these areas. These areas are deficient in oil supply, so there will be much less impact on world oil supply.

Refineries in China and India will be happy to take advantage of the lower crude oil prices this approach would seem to provide, so much of the immediately reduced oil consumption in California and Western Europe will go to benefit other parts of the world. But the lower oil world oil prices will also act to inhibit future world oil extraction because the development of new oil fields will tend to be restricted by the lower world oil prices.

The lower crude oil prices will be beneficial in keeping world food price inflation and general inflation down worldwide. Some oil may be left in place, in case better extraction techniques are available later, especially in the areas with these high taxes. With less oil supply available, the economies of California and Western Europe will tend to fail more quickly than otherwise.

Unfortunately, so far, these intentionally higher oil prices for consumers seem to be mostly dead ends; they encourage substitutes, but today’s substitutes don’t work well enough to support modern agriculture and long-distance transportation.

[8] Politicians at times have reduced oil demand, and thus oil prices, by raising interest rates.

One way to reduce oil prices has been to push the economy into recession by raising interest rates. When interest rates rise, purchasing power for new cars, and for goods using oil in general, tends to fall. Recession seems to happen, with a lag, as shown on Figure 6. Recessions on this figure are noted with gray bars.

Line graph depicting the 3-Month Treasury Bill Secondary Market Rate and the Market Yield on U.S. Treasury Securities at 10-Year Constant Maturity over time, highlighting trends and fluctuations since the 1940s. — Figure 6. 3-month and 10-year secondary market Treasury interest rates, based on data of Federal Reserve System of St. Louis. The last month shown is July 2025.

Increasing interest rates has led to several recessions, including the Great Recession of 2007-2009. A comparison with Figure 1 shows that oil prices have generally fallen during recessions.

[9] The climate change narrative is another way of attempting to reduce oil demand, and thus crude oil prices.

The wealthy nations of the world have been spreading the narrative that our most serious problem is climate change. In this narrative, we can help prevent climate change by reducing our fossil fuel usage. This narrative makes trying to work around a fossil fuel shortage a virtue, rather than something that needs to be done to prevent calamity from happening. However, when we examine CO2 emissions (Figure 7), they show that world CO2 emissions from fossil fuels have not fallen because of the climate change narrative.

Graph showing the world CO2 emissions from fossil fuels from 1965 to 2022, with data for advanced economies, other than advanced economies, and total world emissions. — Figure 7. World CO2 emissions from fossil fuels based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute. Advanced Economies are members of the Organization for Economic Development (OECD). The latest year shown is 2024.

Instead, what has happened is that manufacturing has increasingly moved to the less advanced economies of the world. There is a noticeable bump in CO2 emissions starting in 2002, as more coal-based manufacturing spread to China after it joined the World Trade Organization in very late 2001.

The climate change narrative has made it possible to “sell” the need to move away from fossil fuels in a less frightening way than by telling the public that oil and other fossil fuels are running out. However, it hasn’t fixed either the CO2 issue or the declining supply of fossil fuels issue, particularly oil.

[10] The danger is that the world economy is growing increasingly fragile because of long-term changes related to added complexity.

Shifting manufacturing overseas only works as long as there is plenty of inexpensive oil to allow long-distance supply lines around the world. Diesel oil and jet fuel are particularly needed. The US extracts a considerable amount of oil, but it tends to be very “light” oil. It is deficient in the long-chain hydrocarbons that are needed for diesel and jet fuel. In fact, the world’s supply of diesel fuel seems to be constrained.

Line graph depicting world per capita diesel supply since 1980, showing fluctuations and a struggle to maintain levels above 100% of the 1980 baseline from 2008 onwards. — Figure 8. World per capita diesel supply, based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

Without enough diesel, there is a need to move manufacturing closer to the end users. But what I have called the Advanced Nations (members of the OECD, including the US, most countries in Europe, and Australia) have, to a significant extent, moved their manufacturing to lower-wage countries. Fossil fuel supplies in countries that have moved their manufacturing offshore tend to be depleted. Trying to move manufacturing back home seems likely to be problematic.

The world economy is now built on a huge amount of debt. All this debt needs to be repaid with interest. But if manufacturing is significantly constrained, there is likely to be a problem repaying this debt, except perhaps in currencies that buy little in the way of physical goods.

When oil supply is stretched, we don’t recognize the symptoms. One symptom is refinery closures in some oil importing areas, such as in California and Britain. This will make future oil supply less available. Other symptoms seem to be higher tariffs (to motivate increased manufacturing near home) and increasing hostility among countries.

**[11] Both history and physics suggest that “overshoot and collapse over a period of years” is the outcome we should expect.**

Pretty much every historical economy has eventually run into difficulties because its population grew too high for available resources. Often, available resources have been depleted, as well. Now, the world economy seems to be headed in this same direction.

The outcome is usually some form of collapse. Sometimes individual economies lose wars with other stronger economies. Sometimes, wage disparities become such huge problems that the poorer citizens become vulnerable to epidemics. At other times, unhappy citizens overthrow their governments. Or, if the option is available, citizens might vote the current political elite out of power.

Such collapses do not happen overnight; they are years in the making. Poorer people start dying off more quickly, even before the economy as a whole collapses. Conflict levels become greater. Debt levels grow. Researchers Turchin and Nefedov tell us that food prices bounce up and down. There is no evidence that they rise to a permanently high level to enable more food to be grown.

Anthropologist Joseph Tainter, in the Collapse of Complex Societies, tells us that there are diminishing returns to added complexity. While economies can temporarily work around overshoot problems with greater complexity, added complexity cannot permanently prevent collapse.

[12] We need to beware of “overly simple” models.

The models of economists and of scientists tend to be very simple. They do not consider the complex, interconnected nature of the world economy. In fact, the laws of physics are important in understanding how the world economy operates. Energy in some form (fossil fuel energy, human energy, or energy from the sun) is needed for every component of GDP. If the energy supply somehow becomes restricted, or is very costly to produce, this becomes a huge problem.

As I see it, the supply and demand model of economists is primarily useful in predicting what will happen in the very short term. It doesn’t have enough parts to it to tell us much more.

For any commodity, including oil, storage capacity tends to be very low relative to the amount used each year. Because of this, commodity prices tend to react strongly to any fluctuation in presently available supply, or projected supply in the future. The supply and demand model of economists primarily predicts these short-term outcomes.

For the longer term, we need to look to history and to models that consider the laws of physics. These models seem to suggest that collapse will take place over a period of years, as the more vulnerable parts of the system break off and disappear. Unfortunately, we cannot expect long-term high prices to solve our oil problem.

Posted in Energy policy, Financial Implications | Tagged oil demand, peak oil, physics of the economy | 1,589 Comments

Worrying indications in recently updated world energy data

Posted on July 14, 2025 by Gail Tverberg

The Energy Institute recently published its updated energy report, the 2025 Statistical Review of World Energy, showing data through the year 2024. In this post, I identify trends in the new data that I consider worrying. These trends help explain the strange behaviors that we have been seeing from governments recently.

A major hidden issue is that prices never seem to rise high enough, for long enough, to prevent production of fossil fuels and other mineral resources from declining relative to what is needed for the world’s rising population. Reserve numbers appear plenty adequate but, because of affordability issues, we cannot actually extract the resources that seem to be available. We should expect declining production because low prices drive more and more fossil fuel and other mineral producers out of business.

[1] The world’s per capita affordable supply of diesel has been declining, especially since 2014.

Because of it is high energy density and ease of storage, diesel is important in many ways:

Diesel powers a substantial share of modern agricultural equipment.
Diesel is the fuel of the huge trucks that carry goods of all kinds.
Diesel powers much of the world’s construction and earth-moving equipment.
Diesel (and other similarly energy-dense but less refined fuels) allows long-distance transport by ship.
Diesel is widely used in mining.
Diesel powers some trains, provides backup electricity generation, and powers some irrigation pumps.

Line graph showing world per capita diesel supply as a percentage of the 1980 level from 1980 to 2024, indicating a decline since 2008. — Figure 1. Chart showing the level of per-capita diesel consumption, relative to the per-capita consumption in 1980. Amounts are based on Diesel/Gasoil amounts shown in the “Oil-Regional Consumption” tab of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

Figure 1 suggests that the supply of diesel started being constrained during the 2008-2009 recession. The decrease became more pronounced starting in 2014, which was when oil prices fell (Figure 12). In fact, this downward trend since 2014 continued into 2024. The constraint in diesel production/consumption comes through oil prices that fall too low for the producers of diesel. If prices rise, they don’t stay high for very long.

If there isn’t enough diesel, cutbacks in some applications will be needed. One new workaround for the inadequate supply of diesel seems to be a reduction of international trade through tariffs. If goods can be produced closer to where they are purchased, then perhaps the economic system can accommodate the declining availability of the diesel supply a little longer.

It should be noted that jet fuel consumption is also constrained. The type of oil used is quite similar to diesel. Transferring the transportation of goods from trucks and ships to jet aircraft is not a solution!

[2] Copper supply seems to be constrained.

There has been much discussion of transitioning to the use of more electricity and less fossil fuels. This would require both a greater build out of electricity transmission systems and more use of electric cars. Each of these uses would require more use of copper. Electric cars are reported to each require 40kg to 80kg of copper, while cars with internal combustion engines use only 20kg of copper. Building charging stations for all these cars would further add to copper needs, as would adding new transmission lines to carry the higher total electricity supply.

Line graph depicting world copper production from 2014 to 2024, showing a trend suggesting constraints in supply. Labels indicate production measured in million tons, with notable production levels around 20 million tons. — Figure 2. World copper production, based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

Figure 2 shows that even with the expected increase in demand for copper resulting from a shift toward electrification, total world extraction of copper has remained relatively flat. A major issue is that it takes a very long time to build a new copper mine. Worldwide, the average time to new production is 17.9 years. For this reason, a temporary increase in price cannot be expected to drive up production very quickly. If diesel is used in extracting copper, and diesel’s consumption is constrained, the restricted diesel supply can also be an issue in expanding the copper supply.

The new tariffs on copper, announced by President Donald Trump, seem to be intended to drive industries that use copper to look for substitute minerals. With a very long lag, the tariffs might also lead to an increase in copper production. Tariffs have more staying power than volatile price changes. There doesn’t seem to be a quick solution, however.

[3] Platinum extraction also seems to be constrained.

Line graph showing the world production of platinum group metals from 2014 to 2024, with production levels fluctuating around 350 to 450 thousand tons. — Figure 3. World production of platinum and palladium (which is closely related) based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

Platinum currently has a wide variety of applications, including use in catalytic converters, jewelry, medicine, and industry.

Some people are also hopeful that platinum will enable the wide use of hydrogen fuel cells to help meet the world’s demand for electrical power in a way that doesn’t require burning fossil fuels.

One issue mentioned in the lack of growth in platinum production is persistently low prices. New mines will not be opened unless it is clear that production will be profitable. Another source indicates that the largest producing country, South Africa, has been having problems with electrical supply and rail transportation. These problems, in turn, seem to be related to South Africa’s dwindling coal supply. Its peak coal production took place in 2014. We should not be surprised if South Africa continues to have problems producing platinum in the future.

**[4] Up until this report, the Statistical Review of World Energy has used an optimistic approach to quantifying the benefits of intermittent renewable electricity.**

The traditional method of evaluating energy products involves analyzing the amount of heat produced in combustion. In past years, the Statistical Review of World Energy used a method that essentially assumed that the intermittent electricity produced by renewable sources (including hydropower) completely substitutes for the equivalent dispatchable electricity generated by fossil fuels. I think of this as the “wishful thinking” methodology.

The current methodology gives renewables less credit, recognizing the fact that intermittent sources substitute primarily for the fuel that electricity generating plants would use. It is becoming increasingly clear that intermittent power doesn’t work very well on a stand-alone basis. Many types of workarounds, including batteries and backup fossil-fuel generation, are required to supplement it.

The new methodology gives about 22% more credit to nuclear power than the old method. Nuclear power can be counted on 24 hours per day. Also, like fossil fuel generation, it provides the necessary inertia (the energy stored in large rotating components such as generators, which allows the power system to maintain a steady frequency) to keep electricity moving through transmission lines. Without sufficient inertia, electrical outages similar to that recently experienced in Spain, are likely.

The revised methodology seems to align better with the methods used by the US Energy Information Administration and the International Energy Agency. In the past, it has been confusing with major agencies using different methodologies.

[5] With the new methodology, there are significant changes in patterns from past reports.

With the new methodology, the percentage of energy generated directly by fossil fuels is higher than many of us remember from past reports. Now, the portion of fossil fuel consumption that comes directly from fossil fuel generation has been reduced from 94% in 1980 to 87% in 2024. Using the old methodology, the fossil fuel percentage in 2024 would have been 81%.

Line graph showing the percentage of fossil fuel in total world energy supply from 1980 to 2024, indicating a decline from over 94% to around 86%. — Figure 4. Fossil fuel energy as share of total energy generation based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

Figure 5 shows the history of non-fossil fuel types of energy, as percentages of total world energy supply. It should be noted that even these types of energy require some use of fossil fuels. Such fuels are used in the initial construction of the devices, for their maintenance, for energy storage, and for transportation (or transmission) to where the energy product is used.

Line graph showing the percentage of total world energy from non-fossil fuel types, including Nuclear, Hydroelectric, Wind + Solar, and Geo, Biomass, Other from 1980 to 2024. — Figure 5. Non-fossil fuels as share of total energy supply based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

Figure 5 shows that the share of energy produced by “Nuclear” hit a peak of 7.6% in 2001, and it has been declining ever since. “Hydroelectric” has grown a bit over the years relative to world energy supply.

“Geo, Biomass, Other” as a share of world energy supply has been relatively flat in recent years. It includes biomass in the form of ethanol and biodiesel, which are non-electricity forms of renewable energy. It also includes electricity from geothermal generation, and from burning wood chips and sawdust.

The only real “winner” in recent years has been “Wind + Solar.” As of 2024, this category amounts to 2.9% of world energy supply. It certainly cannot, by itself, power an economy like the one we have today. Section 7 of this post explains a bit more about this issue.

[6] The sad state of nuclear generation deserves a discussion of its own.

There seem to be many factors underlying the substantial decline in nuclear electricity, as a share of total energy supply, between 2001 and 2013:

There were three major accidents at nuclear power plants, leading to worries about the safety of nuclear generation (Three Mile Island, 1979; Chernobyl, 1986; and Fukushima, 2011).
The pricing scheme for wind and solar generally gives “priority” to wind and solar. This leads to negative wholesale prices for electricity at some times, and very low prices at other times, for nuclear power plants. This pricing scheme tends to make nuclear power plants unprofitable. I expect that this lack of profitability has been a major issue in the recent decline of nuclear generation.
There doesn’t seem to be enough uranium produced to support much more nuclear generation than is used today. The US has been using down-cycled nuclear bomb material, but that is now becoming exhausted. See my earlier post.
Uranium prices never bounce very high for very long. If prices were a lot higher over the long term, more uranium mines might be opened, and more uranium extracted.
Opening a new mine often involves lag times of 10 to 15 years, making any ramping of uranium production a slow process.

There is also the issue of financing any shift to nuclear electricity. Upfront costs are huge, but nuclear power plants (with proper fossil-fuel-based maintenance) can operate for 60 to 80 years. As limits on fossil fuels are reached, building all these plants, using large amounts of fossil fuels, seems likely to reduce fossil fuels energy available for other uses. This makes financing a major challenge.

[7] The recent annual rising trend of 0.2% in per capita consumption of energy looks vulnerable to disruption by any economic problem that arises.

Line graph showing world energy consumption by type from 1980 to 2024, with categories for Geo, Biomass, Other, Solar, Wind, Hydroelectric, Nuclear, Natural Gas, Coal, and Oil, measured in Exajoules per year. — Figure 6. World energy consumption by type of energy based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

A major reason why energy consumption keeps rising is because, as population rises, there is a need for more food, housing, and transportation for this larger population. The consumption of energy products allows people to meet these needs. In fact, every aspect of GDP depends upon energy consumption.

A line graph showing world per capita energy consumption from 1965 to 2022, with gigajoules per capita on the vertical axis and years on the horizontal axis. — Figure 7. World per capita energy consumption based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

Figure 7 indicates that world energy supply per capita rose between 1965 and 1979. It remained relatively flat between 1979 and 2002 and then rose quite rapidly until 2008. Since then, its growth rate has again been essentially flat. Fitted trend lines show what these growth trends have been:

A line graph depicting world per capita energy consumption from 1965 to 2022, showing varying trends over different periods. — Figure 8. Similar to Figure 7, with exponential trend lines fitted for time periods noted in text.

I have written recently about the huge US government debt increase since 2008 that has tended to prop up both the US and world economies. With all this “support” since 2008, the fact that world per capita energy consumption growth has only risen by 0.2% per year is frightening. With the high level of debt, there is a danger that there will be another major recession that could bring huge financial difficulties. At some point, higher debt levels become unsupportable. Thus, what is really an energy crisis can “morph” into a financial crisis.

Graph displaying world energy consumption growth from 1966 to 2024, highlighting significant fluctuations during key economic events. — Figure 9, One-year increase in total world energy consumption based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

The types of events that have brought energy consumption down in the past are quite varied, as shown on Figure 9. Note that the lows keep getting lower. There is a danger that another recession-type event could come along and push the world economy toward a long-term downtrend in energy supply per capita.

[8] China plays a huge role in the world’s energy consumption. As resource limits are hit, China has the potential to pull the world economy down with it.

China energy consumption (Figure 10) follows a very different pattern from world energy consumption (Figure 6).

Line graph showing China's energy consumption by type from 1980 to 2024. The graph includes categories like coal, oil, natural gas, nuclear, hydroelectric, wind, solar, and geo, biomass, other, with varying colors for each type. — Figure 10. China’s energy consumption by fuel based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

There are several important things to notice about China’s energy pattern:

(a) China’s energy consumption is heavily dominated by coal.

(b) There was a sharp expansion in China’s energy consumption, starting about 2002. This is related to China joining the World Trade Organization (WTO) in December 2001. On Figure 8, we noted 2.0% annual world per capita energy consumption growth between 2002 and 2008, which was far greater than in either the period before 2002 (at 0.2%), or the period after 2008 (at 0.2%). This shifting pattern was largely driven by China’s spurt in energy consumption after joining the WTO.

(c) China’s energy consumption has been growing more rapidly than that of the rest of the world. This is closely related to China’s becoming the leading manufacturer for the world economy, at the same time most of the wealthier countries have been moving manufacturing to lower-cost areas (ostensibly to reduce CO2 emissions).

(d) China’s energy consumption now plays an outsize role in the future of the world economy. In 2024, China consumed 27% of the world’s energy supply. This is more energy than that consumed by the US (16%) and the EU (9%) combined.

(e) With this energy dominance, any stumble in the world’s supply of fossil fuels and other mineral resources will affect China.

One area where China is running into limits is with respect to oil supply. China imports most of its oil. Comparing 2024 to 2023, China’s total oil consumption decreased by 1.4%. Its diesel consumption decreased even more, by 2.8%.

As the leading manufacturer of the world, China has been consuming huge amounts of minerals such as copper. This Copper Council report seems to indicate that China uses about 56% of the world’s copper supply. If there is a shortage of copper, China will be affected.

We can look at energy consumption growth on a per capita basis. Not surprisingly, China’s rapid growth has pulled down per capita energy consumption growth elsewhere.

Line graph showing energy consumption per capita from 1965 to 2022 for the world, world excluding China, and China, with gigajoules per capita on the vertical axis. — Figure 11. Energy consumption per capita, separately for the World, China, and the World excluding China, based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

The pattern shown in Figure 11 is disturbing. Outside of China, energy consumption per capita has been falling for a long time. The rest of the world, to a significant extent, has lost its ability to manufacture the goods needed for its own people. China’s energy consumption per capita is now reported to be on a par with Europe’s, but China, too, faces issues as it encounters resource limits of many kinds.

No wonder there is conflict among nations! Every country would like limited resources. If one country has more, other countries will get less.

[9] Inflation-adjusted oil prices have bounced around, rather than following a consistent upward pattern. This limits their long-term impact on production.

Line graph showing the average annual Brent oil price in 2024 US dollars from 1965 to 2024. The graph illustrates fluctuations in oil prices over the decades, with notable peaks and valleys. — Figure 12. Average annual inflation-adjusted oil prices based on data of the *2025 Statistical Review of World Energy*, published by the Energy Institute.

Commodity prices of all kinds seem to be influenced by many temporary situations, including debt availability and concerns about war. Higher prices do induce short-term changes that can influence supply of some energy products. For example, when oil prices are high, more production of diesel can economically be achieved by “cracking” long molecules of very heavy oil to produce shorter diesel-length molecules. When oil (and diesel) prices are low, this conversion process starts to be money-losing.

Thus, as we saw in Figure 1, diesel production increased between 1994 and 2008, in line with rising oil prices (Figure 12). Conversely, diesel barely held steady between 2008 and 2014. After 2014, when oil prices were clearly lower, diesel production fell significantly.

A major problem in creating greater mineral supplies for the long term is that new mines of all types take many years to develop. So does opening a completely new oil field. Prices tend not to stay high enough, for long enough, to encourage opening new mines and new oil fields. We see this pattern repeatedly, in diverse areas, including oil, copper, platinum and uranium, holding down the supply of these mineral resources.

Over the long term, affordability seems to play a larger role than rising demand in the prices of commodities, holding prices down. As a result, it is low prices that seem to lead to the falling production of commodities.

[10] Conclusion

This analysis confirms what I have shown earlier: The world economy is hitting energy limits in many ways.

I have written about the world’s diesel and jet fuel shortage in the past. Updated data from the 2025 Statistical Review of World Energy confirms that the world’s diesel supplies are not rising sufficiently to keep pace with world population growth. I believe that the shortage of diesel, and perhaps of oil in general, underlies the push toward more tariffs. One effect of tariffs may be to reduce the amount of long-distance shipping.

The 2025 Statistical Review of World Energy includes data for a few minerals that will likely be used if there is a transition away from fossil fuels. Of the minerals shown in the report, copper and the platinum group seem to be the most limited in supply. The relatively flat production at a time when demand should be expected to be rising gives us a clue that limits are being reached. Unless someone can figure out a way to get prices to stay at a significantly higher level, low supply of these minerals is likely to remain a long-term problem.

The overall energy supply does seem to still be rising slowly, but progress in transitioning to non-fossil fuels is painfully slow. We hear much talk about ramping up nuclear electricity production, but my analysis suggests that such a transition will be difficult, at best.

There is a great deal more analysis that can be done with the new data. I expect to be looking at this data in more detail in future posts.

Posted in Alternatives to Oil, Energy policy, Financial Implications | Tagged copper, diesel shortage, nuclear energy | 1,300 Comments

What should individuals do in a world filled with conflict?

Posted on June 18, 2025 by Gail Tverberg

Today, the world is filled with conflict. Part of the problem is oil limits, but there are many other issues as well:

Resources such as coal, lithium, and copper are also becoming more expensive to extract.
Fresh water is often inadequate for the world’s rising population.
Debt levels are very high.
Complexity is very high.
An adequate standard of living is becoming unaffordable for many people.
The increasing world population leads to a need for more food and more paved roads.

These symptoms strongly suggest that the world economy is headed for a slow-motion collapse.

A graph illustrating the concept that societal collapse follows a predictable pattern, showing the relationship between complexity, fossil fuel consumption, wage and wealth disparity, and the resulting declines in population and GDP. — Figure 1. Overall pattern of today’s predicament, in an image by Gail Tverberg. We seem to be up near the top now.

The system causing the problem is physics-based. Without enough affordable energy of the right types, the economy tends to collapse. This is the predicament we are facing today.

What should ordinary citizens do? I am not certain that there is one correct answer, or that I know it. In this post, I would like to offer some suggestions for discussion.

[1] Every day, give thanks for the many things you do have.

We are at the peak of resources per capita. This means that, as a group, we have as many goods and services as any population that has ever lived. We also have lots of natural resources remaining. We have a huge amount of complexity, with many young people receiving university degrees.

It is easy to lose sight of how much we do have. Most readers of this blog eat a variety of food in the quantities desired. We live in homes that are heated in winter. Even today, many people around the world are not as fortunate as we are.

[2] To the extent possible, stay away from conflict yourself.

The physics of the system will create conflict because the system must change if there is no longer enough oil to ship huge amounts of goods and services across the Atlantic or Pacific Oceans. Perhaps a few highly valued goods and services can be shipped long distance, but patterns must change to put the production of goods and services closer to the consumption of goods and services. This is a major reason why countries are quarreling now.

There is no point in individuals strongly objecting to cutbacks in trade because today’s lack of oil supply is demanding these cuts. The only way one country can lessen the impact of the reduced oil supply is to push the reduction in indirect oil consumption onto another country, using quotas or tariffs on its imports of goods and services. Needless to say, pushing other countries down to benefit one’s own country is likely to create conflict.

Another issue is that with reduced oil and other energy supplies, governments cannot continue to provide as many services as they have in the recent past. They need to reduce the number of government workers in many departments. This is the reason for the many cutbacks by the US Department of Government Efficiency and similar cuts in other countries. It also means that benefit programs, such as those aimed at seniors, the disabled, or hurricane relief, will need to be reduced or eliminated in the future.

We can argue about which programs should be cut back first, but ultimately, all government programs will need to be cut back substantially. Just printing money to try to solve the problem will likely lead to inflation; money doesn’t solve the physics problem we are facing. Energy products of the right kinds are needed for every part of GDP; not having sufficient oil is likely to cut back the supply of goods produced using oil products, including food.

If you get involved in protests, or even in war, you will be putting yourself in harm’s way. And, in the long run, you are unlikely to gain significant benefits personally.

[3] Expect declining complexity in the future.

There are many aspects to complexity:

Much international trade
Much debt
Businesses with multiple layers
Governments providing a wide range of services, including pension plans and health care
Energy efficient vehicles
Appliances that are designed to save energy
Healthcare with many specialized physicians and high-cost drugs
Agriculture with many hybrid seeds, herbicides, insecticides, and soil amendments

All these types of complexity will need to be scaled back in the future, but we don’t know precisely to what extent or how rapidly. We cannot go back to old solutions because these won’t necessarily be available. For example, we know from the past that if an economy no longer operates with horses and carriages, it will no longer make buggy whips.

We need to expect a rapidly changing world. Complex appliances we own will fail, and we will not be able to obtain replacement parts. Many drugs imported from Asia will no longer be available. Homes purchased with debt will be affordable by fewer and fewer people. We need to be aware of these issues and change our expectations accordingly.

[4] Expect fewer goods and services to be available in the future, and money to have less value.

We are no longer moving to an ever-better world; we are moving (at least for a few years, perhaps much longer) to a shrinking world economy. Do not be surprised if home values drop and stock market values fall.

Saving money for the future makes less and less sense because fewer goods and services will be available to buy in the future. Even saving gold will not necessarily work around the problem of there being fewer goods to buy. For example, farmers and others involved in producing food will likely get food before others, to assure the continued production of food. This will leave less food for others to buy.

Electricity is likely to become intermittent in the years ahead. It would seem wise to stay away from purchasing condominiums that can only be accessed by elevators.

[5] Focus on the present, not the past or the future.

In our current world, great stress is placed on planning for the future. For example, workers are encouraged to save for retirement, and young people are encouraged to take courses that will allow them to work in a well-paying occupation for the long term. This plan assumes that that the upward trend we have seen in the past will continue. We also expect that governments will be able to make good on their promises.

But we really cannot expect this pattern to continue for the long term. The best we can hope for is that what we have right now will continue. If a family member is lost, the remaining members will need to pick themselves as quickly as possible and continue as best they can. This is one reason an extended family is helpful in Africa. Such an approach will increasingly be helpful elsewhere.

Fossil fuels have made retirement possible. As fossil fuel availability declines, retirement is less likely to be available. Everyone will need to work as long as they are physically available. Thus, saving for retirement becomes a less useful goal.

[6] Living in groups, particularly family groups, will increasingly make sense.

When things were going well, and wages of most educated people were high, it made sense for many people to live by themselves. If they had an argument with their spouse, picking up and leaving might sound like a sensible idea. The job of each spouse would be sufficient to pay for housing for each separately.

As the economy goes downhill, people will need to live in more compact housing in order to save on heating and transportation expenses. Multiple generations will increasingly need to live together. In the case of singles, they will increasingly need to band together. Government programs will likely not be sufficient to provide separate living arrangements for a mother with children or for elderly individuals in care homes.

[7] Young people should not go into debt for higher education.

At this point, the US has educated far too many people with college degrees (and beyond) relative to the number the economy can afford to hire. With declining complexity, adding more college-educated workers to the pool makes little sense.

A better choice for most young people is a short course or certificate program leading to a useful skill, such as appliance repair or becoming a licensed practical nurse. Apprentice programs may also make sense.

If families are wealthy enough to pay for their children’s education, a few people with advanced degrees will probably be needed. There may be some solutions to today’s problems that can be tackled by these individuals.

[8] People will need to be more flexible in their career choices.

As the economy changes, job availability will change. Demand for workers in many of today’s high-paying careers will likely decline. For example, fewer specialty physicians will be needed. There will also be a need for fewer college professors, fewer stock market analysts, and fewer computer programmers.

The most immediate new jobs will involve the demolition of infrastructure that is no longer needed, such as movie theaters, shopping malls, office buildings, and many homes. Some materials will likely be saved for reuse elsewhere. This may involve heavy labor. Smaller, more local stores or open-air markets may open. Jobs previously held by immigrants picking vegetables and fruit will also be available.

How does a person step down from a high-paid desk job to a low-paid manual labor job? I don’t know. But, somehow, we need to be thinking through this issue.

[9] People should focus on taking care of their own health through healthy eating and adequate exercise.

I expect the healthcare industry will be forced to change. One part of the problem will be fewer imported drugs and medical devices; another will be that most people will be less wealthy. They will not be able to afford the enormous costs of today’s bloated US healthcare system. Somehow, the system will need to shrink back.

Fortunately, there is a way that people can become healthier, despite lower spending. People can cook their own food, instead of buying over-processed food available from grocery stores and restaurants. They can eat less meat than the average American eats, and they can stay away from sugary soft drinks. They can exercise more. Part of this exercise can take place by walking to more local markets.

[10] Planting a modest garden, as far as this is possible, is probably a good idea.

Most people do not have sufficient land to plant very much in the way of food crops. In fact, a large share of my readers probably lives in apartment buildings. And most young people, attempting to live on their own, will not have space to grow food crops. The cost of buying land is likely to be high, and property taxes will need to be paid.

If space is available on property that is already owned, fruit trees that grow and bear fruit without the need for pesticide spraying are a good choice. These trees will likely take several years to get started. Potatoes are another reasonable choice, as are vegetables in general.

It is not clear to me that people who set out to operate a self-sufficient farm will have much success. They require a complex infrastructure to support them. Such farms are very vulnerable to robbers and generally don’t have good backup plans if something goes wrong, such as the farmer becoming injured. I wish these individuals success in their endeavors, but I am not optimistic that these farms will succeed beyond their first major setback. We need a bridge to sustainable agriculture, but it is hard for me to see one right now.

[11] Concluding Observation: Why standing back from conflict is a suitable approach.

Most people have a completely mistaken idea regarding what oil limits will look like. They assume that oil limits will lead to very high prices or long lines at gasoline stations. They fail to appreciate that oil limits will arrive at the same time as many other limits, including affordability limits. They also fail to understand that prices that are too low for producers will bring down oil production quickly. In fact, too low oil prices, rather than too high, are the issue the world is facing today.

What oil limits really lead to is lots of conflict: among nations, among political parties, among people who feel that it is unfair that they have spent a lot of money on an advanced education but cannot find a job that pays well enough to repay their education-related debt with interest. As limits of many kinds mentioned in the beginning of this post are hit, today’s economy will need to greatly shrink back in size. Many governmental structures that we expect today, including the EU, the World Bank, and the UN, may disappear.

We don’t know precisely what is ahead over the longer term. Some people believe a religious ending is likely. Other people think that some of the research that is currently underway may eventually lead to a solution. Still others are concerned that some parts of the world will need to shrink back to a very low level, perhaps similar to hunter-gathering, before these economies can grow again.

Regardless of how things play out, it is the physics of the self-organizing system that determines what happens next. No matter how offended we as individuals may feel regarding what some political party or politician has done or has not done, individuals are not able to fix the system, except to the extent that available inexpensive energy supply allows such a fix. This is why standing back from whatever conflict is taking place seems to me to be a suitable strategy.

Posted in Financial Implications, News Related Post, Planning for the Future | Tagged economic collapse, economic growth, low oil prices | 1,547 Comments

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What has gone wrong with the economy? Can it be fixed?

[1] Economies need to “dissipate” energy on a regular basis, just as humans need to eat food on a regular basis.

[2] Low energy prices are at least as important to the economy as low food prices are to individual households. Low energy prices seem to allow investments that pay back well.

[3] Many indirect changes took place between 1948 and 1970 that would be harder to maintain if oil supplies stopped growing as rapidly and as inexpensively as they did during this early period.

[4] Governments facing the problem of high-cost oil did exactly what families with suddenly high-cost food would do, if they had unlimited credit cards. They ran up increasing amounts of debt, to pay for all the promised programs.

[5] Now the consequences of too many governmental promises are becoming clear.

[6] Leaders have not told the public about the likelihood of a shortfall of energy supplies and the difficulties this would cause.

[7] The Kyoto Protocol, as implemented, has had the opposite effect from the hoped-for reduction in world CO2 from fossil fuels.

[8] The supposed transition to wind turbines and solar panels is not going well.

[9] There are important things about ecosystems in general and our economy in particular that we are not told about.

[10] We seem to be reaching the end of the Stagflation Period in Figure 12. We are likely starting along the long downslope of the Crisis Period.

[11] Hope for the future.

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Sierra Club talk that may be of interest

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Why oil prices don’t rise to consistently high levels

[1] Overview: Why Oil Prices Don’t Permanently Rise; What Happens Instead

[2] Demand for oil is something that tends not to be well understood. To achieve growing demand, an expanding middle class of workers is very helpful.

[3] In the US, there was a growing middle class between World War II and 1970, but more recently, increasing wage and wealth disparities have become problems.

[4] Governments talk about the growing productivity of workers. In theory, this growing productivity should act to raise the wages of workers. This would maintain the buying power of the middle class.

[5] The second major issue holding oil prices down is the fact that if crude oil prices rise, food prices also tend to rise. In fact, overall inflation tends to escalate.

[6] Oil prices that are either too high for the consumer or too low for the producer will bring the economy down.

[7] The third major issue is that politicians in very oil deficient areas have been raising oil prices for consumers through carbon taxes, other taxes, and regulations.

[8] Politicians at times have reduced oil demand, and thus oil prices, by raising interest rates.

[9] The climate change narrative is another way of attempting to reduce oil demand, and thus crude oil prices.

[10] The danger is that the world economy is growing increasingly fragile because of long-term changes related to added complexity.

[11] Both history and physics suggest that “overshoot and collapse over a period of years” is the outcome we should expect.

[12] We need to beware of “overly simple” models.

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Worrying indications in recently updated world energy data

[1] The world’s per capita affordable supply of diesel has been declining, especially since 2014.

[2] Copper supply seems to be constrained.

[3] Platinum extraction also seems to be constrained.

[4] Up until this report, the Statistical Review of World Energy has used an optimistic approach to quantifying the benefits of intermittent renewable electricity.

[5] With the new methodology, there are significant changes in patterns from past reports.

[6] The sad state of nuclear generation deserves a discussion of its own.

[7] The recent annual rising trend of 0.2% in per capita consumption of energy looks vulnerable to disruption by any economic problem that arises.

[8] China plays a huge role in the world’s energy consumption. As resource limits are hit, China has the potential to pull the world economy down with it.

[9] Inflation-adjusted oil prices have bounced around, rather than following a consistent upward pattern. This limits their long-term impact on production.

[10] Conclusion

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What should individuals do in a world filled with conflict?

[1] Every day, give thanks for the many things you do have.

[2] To the extent possible, stay away from conflict yourself.

[3] Expect declining complexity in the future.

[4] Expect fewer goods and services to be available in the future, and money to have less value.

[5] Focus on the present, not the past or the future.

[6] Living in groups, particularly family groups, will increasingly make sense.

[7] Young people should not go into debt for higher education.

[8] People will need to be more flexible in their career choices.

[9] People should focus on taking care of their own health through healthy eating and adequate exercise.

[10] Planting a modest garden, as far as this is possible, is probably a good idea.

[11] Concluding Observation: Why standing back from conflict is a suitable approach.

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**[6] Oil prices that are either too high for the consumer or too low for the producer will bring the economy down.**

**[11] Both history and physics suggest that “overshoot and collapse over a period of years” is the outcome we should expect.**

**[4] Up until this report, the Statistical Review of World Energy has used an optimistic approach to quantifying the benefits of intermittent renewable electricity.**