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posted by martyb on Monday January 19 2015, @12:19AM   Printer-friendly
from the just-a-matter-of-degree dept.

Astrophysicist Adam Frank has an interesting article in The New York Times postulating one answer to the Fermi paradox — that human evolution into a globe-spanning industrial culture is forcing us through the narrow bottleneck of a sustainability crisis and that climate change is fate and nothing we do today matters because civilization inevitably leads to catastrophic planetary changes. According to Frank, our current sustainability crisis may be neither politically contingent nor unique, but a natural consequence of laws governing how planets and life of any kind, anywhere, must interact. Some excerpts:

The defining feature of a technological civilization is the capacity to intensively “harvest” energy. But the basic physics of energy, heat and work known as thermodynamics tell us that waste, or what we physicists call entropy, must be generated and dumped back into the environment in the process. Human civilization currently harvests around 100 billion megawatt hours of energy each year and dumps 36 billion tons of carbon dioxide into the planetary system, which is why the atmosphere is holding more heat and the oceans are acidifying.

All forms of intensive energy-harvesting will have feedbacks, even if some are more powerful than others. A study by scientists at the Max Planck Institute in Jena, Germany, found that extracting energy from wind power on a huge scale can cause its own global climate consequences. When it comes to building world-girdling civilizations, there are no planetary free lunches.

By studying these nearby planets, we’ve discovered general rules for both climate and climate change (PDF). These rules, based in physics and chemistry, must apply to any species, anywhere, taking up energy-harvesting and civilization-building in a big way. For example, any species climbing up the technological ladder by harvesting energy through combustion must alter the chemical makeup of its atmosphere to some degree. Combustion always produces chemical byproducts, and those byproducts can’t just disappear.

As we describe in a recent paper, using what’s already known about planets and life, it is now possible to create a broad program for modeling co-evolving “trajectories” for technological species and their planets. Depending on initial conditions and choices made by the species (such as the mode of energy harvesting), some trajectories will lead to an unrecoverable sustainability crisis and eventual population collapse. Others, however, may lead to long-lived, sustainable civilizations.

 
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  • (Score: 2) by khakipuce on Monday January 19 2015, @01:04PM

    by khakipuce (233) on Monday January 19 2015, @01:04PM (#136022)

    Yes but it has always amused me to think that burning carbon is our thermodynamic destiny. There's the sun doing what it ought to and spewing heat out into the universe but then there is the pesky little eddy where trees lock up carbon for millions of years. Something needed to be done with that energy gradient so along came us to dig up all those hydrocarbons and convert them to CO2 this releasing the entropy a tiny bit earlier into the universe.

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