Infinite growth, finite planet

This year, a simulation using an updated version of The Limits to Growth model showed industrial production peaking just about now, while food production, too, could hit a peak soon. Like the 1972 original, this updated analysis foresees distinct declines on the other side of those peaks. As the authors caution, although the precise trajectory of decline remains unpredictable, they are confident that “the excessive consumption of resources… is depleting reserves to the point where the system is no longer sustainable.” Their concluding remarks are even more chilling:

“As a society, we have to admit that, despite 50 years of knowledge about the dynamics of the collapse of our life support systems, we have failed to initiate a systematic change to prevent this collapse. It is becoming increasingly clear that, despite technological advances, the change needed to put us on a different trajectory will also require a change in belief systems, mindsets, and the way we organize our society.”

What is America doing today to break out of such a doomed trajectory and into a more sustainable one? The answer, sadly, is nothing, or rather, worse than nothing. On climate, for example, the most important immediate need is to end the burning of fossil fuels as soon as possible, something not even being considered by Washington policymakers in the country that hit record oil production and record natural gas exports in 2023. Even a quarter-century from now, wind and solar energy sources together are forecast to account for only about one-third of US electricity generation, with 56 per cent of it still being supplied by gas, coal, and nuclear power.

Now, it appears that rising electrical demand will delay the transition away from gas and coal even further. According to a recent report by the Washington Post’s Evan Halper, power utilities in Georgia, Kansas, Nebraska, South Carolina, Texas, Virginia, Wisconsin, and a host of other states are feeling the proverbial heat from exploding electricity consumption. Analysts in Georgia have, for instance, increased by 17-fold their estimate of the generation capacity that the state will require 10 years from now.

Such an imbalance between energy demand and supply is anything but unprecedented and the source of the problem is obvious. As successful as American industry has been in developing new technologies for generating energy, it has been even more successful at developing new products that consume energy. Much of the current rise in demand, for instance, can be attributed to companies working on artificial intelligence (AI) and other power-hungry computational activities. The usual suspects – Amazon, Apple, Google, Meta, and Microsoft – have been on data-center building sprees, as have many other outfits, especially cryptocurrency-mining operations.

Northern Virginia is currently home to 300 football-field-sized data centers, with more on the way, and there’s already a shortage of locally generated electricity. To keep those servers humming, electric utilities will be crisscrossing the state with hundreds of miles of new transmission lines plugged into four coal-fired power stations in West Virginia and Maryland. Plans were once in the works to shutter those plants. Now, they’ll be kept operating indefinitely. The result: millions more tons of carbon dioxide, sulfur, and nitrous oxides released into the atmosphere annually.

And the digital world’s energy appetite will only grow. The research firm SemiAnalysis estimates that if Google were to deploy generative AI in response to every Internet search request, a half-million advanced data servers consuming 30 billion kilowatt hours annually – the equivalent of Ireland’s national electricity consumption – would be required. (For comparison, Google’s total electricity consumption now is “only” about 18 billion kilowatt hours.)

How are Google and Microsoft planning to weather an energy crisis significantly of their own making? They certainly won’t back off their plans to provide ever more new services that hardly anyone asked for (one of which, AI, according to its own top developers, could even bring about the collapse of civilization before climate change gets the chance). Rather, reports Halper, those tech giants are “hoping that energy-intensive industrial operations can ultimately be powered by small nuclear plants on-site.” Oh, great.

The problem doesn’t lie solely with data servers. During 2021–2022, companies announced plans to construct 155 new factories in the United States, many of them to produce electric vehicles, data-processing equipment, and other products guaranteed to suck from the electrical grid for years to come. The broader trend toward the “electrification of everything” will keep lots more fossil-fueled power plants running long past their expiration dates. In December 2023, the firm GridStrategies reported that planners have almost doubled their forecast for the expansion of the national grid – probably an underestimate, they noted, given the rise in demand for charging electric vehicles, producing fuel for hydrogen-powered vehicles, and running heat pumps and induction stoves in millions more American homes. Meanwhile, increasingly hot summers could trigger a 30 per cent-60 per cent increase in power use for air-conditioning.

In short, this sort of indefinite expansion of the US and global economy into the distant future is doomed to fail, but not before it’s crippled our ecological and social systems. In its 2024 Global Resources Outlook, the United Nations Environment Program (UNEP) reported that humanity’s annual consumption of physical resources had grown more than threefold in the half-century since The Limits to Growth was published. Indeed, resource extraction is now rising faster than the Human Development Index, a standard measure of well-being. In other words, overextraction and overproduction while producing staggering wealth aren’t benefiting the rest of us.

UNEP stressed that the need to deeply curtail extraction and consumption applies mainly to wealthy nations and the affluent classes globally. It noted that high-income countries, the United States among them, consume six times the mass of material resources per person as low-income ones. The disparity in per-person climate impacts is even greater, a tenfold difference between rich and poor. In other words, wealth and climate impact are inextricably linked. The share of recent global growth in gross domestic product captured by the most affluent 1 per cent of households was nearly twice as large as the share that trickled down to the other 99 per cent. I’m sure you won’t be surprised to learn that the 1 per cent also produced wildly disproportionate quantities of greenhouse gas emissions.

In addition, societies with a wide rich-poor divide have higher rates of homicide, imprisonment, infant mortality, obesity, drug abuse, and teenage pregnancy, according to British epidemiology professors Richard Wilkinson and Kate Pickett. In a March commentary for Nature, they wrote, “Greater equality will reduce unhealthy and excess consumption, and will increase the solidarity and cohesion that are needed to make societies more adaptable in the face of climate and other emergencies.” In addition, their research shows that more egalitarian societies have significantly less severe impacts on nature. The higher the degree of inequality, the poorer the performance when it comes to air pollution, waste recycling, and carbon emissions.

The message is clear: curtailing ecological breakdown while improving humanity’s quality of life requires banishing the material extravagance of the world’s richest people, especially the growing crew of global billionaires. That would, however, have to be part of a much broader effort to rid affluent societies of the systemic overextraction and overproduction that threaten to be our global undoing.

Old-fashioned computer simulations and present-day realities are, it seems, speaking to us in unison, warning that civilization itself is in danger of collapse. Growth – whether expressed as more dollars accumulated, more tons of material stuff produced, more carbon burned, or more wastes emitted – is coming to an end. The only question is: Will it happen as a collapse of society, or could the reversal of material growth be undertaken rationally in ways that would avoid a descent into a Mad Max-style conflict of all against all?

Excerpted: ‘We’ve Been Warned:

Infinite Growth Can’t Continue on This Finite Planet’.

Courtesy: Commondreams.org