Thomas Homer Dixon argues there are limits to how far human inventiveness can take us when a critical resource becomes in short supply. Take oil, for example.
Some excerpts from the NYT commentary:
The most important resource to consider in this situation is energy, because it is our economy’s “master resource” — the one ingredient essential for every economic activity. Sure, the price of a barrel of oil has dropped sharply from its peak of $78 last summer, but that’s probably just a fluctuation in a longer upward trend in the cost of oil — and of energy more generally. In any case, the day-to-day price of oil isn’t a particularly good indicator of changes in energy’s underlying cost, because it’s influenced by everything from Middle East politics to fears of hurricanes.
A better measure of the cost of oil, or any energy source, is the amount of energy required to produce it. Just as we evaluate a financial investment by comparing the size of the return with the size of the original expenditure, we can evaluate any project that generates energy by dividing the amount of energy the project produces by the amount it consumes.
Economists and physicists call this quantity the “energy return on investment” or E.R.O.I. For a modern coal mine, for instance, we divide the useful energy in the coal that the mine produces by the total of all the energy needed to dig the coal from the ground and prepare it for burning — including the energy in the diesel fuel that powers the jackhammers, shovels and off-road dump trucks, the energy in the electricity that runs the machines that crush and sort the coal, as well as all the energy needed to build and maintain these machines.
As the average E.R.O.I. of an economy’s energy sources drops toward 1 to 1, an ever-larger fraction of the economy’s wealth must go to finding and producing energy. This means less wealth is left over for everything else that needs to be done, from building houses to moving around information to educating children. The energy return on investment for conventional oil, which provides about 40 percent of the world’s commercial energy and more than 95 percent of America’s transportation energy, has been falling for decades. The trend is most advanced in United States production, where petroleum resources have been exploited the longest and drillers have been forced to look for ever-smaller and ever-deeper pools of oil.
Cutler Cleveland, an energy scientist at Boston University who helped developed the concept of E.R.O.I. two decades ago, calculates that from the early 1970s to today the return on investment of oil and natural gas extraction in the United States fell from about 25 to 1 to about 15 to 1. ...
As the price of energy rises and as the planet gets hotter, we need significantly higher investment in innovation throughout society, from governments and corporations to universities. Perhaps the most urgent step, if humankind is going to return to coal as its major energy source, is to figure out ways of safely disposing of coal’s harmful carbon dioxide — probably underground.
But in the larger sense, we really need to start thinking hard about how our societies — especially those that are already very rich — can maintain their social and political stability, and satisfy the aspirations of their citizens, when we can no longer count on endless economic growth.