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The Arithmetic of Plastic

Legend has it that the game of chess was invented by a mathematician who worked for a king. The king was very pleased. He said, “I want to reward you.” The mathematician said “My needs are modest. Please take my new chess board and on the first square, place one grain of wheat. On the next square, double the one to make two. On the next square, double the two to make four. Just keep doubling till you’ve doubled for every square, that will be an adequate payment.” We can guess the king thought, “This foolish man. I was ready to give him a real reward; all he asked for was just a few grains of wheat.”

But let’s see what is involved in this. We know there are eight grains on the fourth square. I can get this number, eight, by multiplying three twos together. It’s 2x2x2, it’s one 2 less than the number of the square. Now that continues in each case. So on the last square, I’d find the number of grains by multiplying 63 twos together.

Now let’s look at the way the totals build up. When we add one grain on the first square, the total on the board is one. We add two grains, that makes a total of three. We put on four grains, now the total is seven. Seven is a grain less than eight, it’s a grain less than three twos multiplied together. Fifteen is a grain less than four twos multiplied together. That continues in each case, so when we’re done, the total number of grains will be one grain less than the number I get multiplying 64 twos together. My question is, how much wheat is that?

You know, would that be a nice pile here in the room? Would it fill the building? Would it cover the county to a depth of two meters? How much wheat are we talking about?

The answer is, it’s roughly 400 times the 1990 worldwide harvest of wheat. That could be more wheat than humans have harvested in the entire history of the earth. You say, “How did you get such a big number?” and the answer is, it was simple. We just started with one grain, but we let the number grow steadily till it had doubled a mere 63 times.

The greatest failing for the human race, Bartlett was fond of telling his students, is its failure to understand the exponential function.

Now there’s something else that’s very important: the growth in any doubling time is greater than the total of all the preceding growth. For example, when I put eight grains on the 4th square, the eight is larger than the total of seven that were already there. I put 32 grains on the 6th square. The 32 is larger than the total of 31 that were already there. Every time the growing quantity doubles, it takes more than all you’d used in all the proceeding growth.

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Each doubling produces twice the amount previously produced

At another point in the lecture, Bartlett gives the example of bacteria filling a bottle. The doubling rate is every minute, so Bartlett poses this challenge to his students:

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If you were an average bacterium in that bottle, at what time would you first realize you were running of space? Well, let’s just look at the last minutes in the bottle. At 12:00 noon, it’s full; one minute before, it’s half full; 2 minutes before, it’s a quarter full; then an 1/8th; then a 1/16th. Let me ask you, at 5 minutes before 12:00, when the bottle is only 3% full and is 97% open space just yearning for development, how many of you would realize there’s a problem?

Which brings us to plastics, which are now in their fourth doubling since 1968. By any fourth doubling the curve’s trajectory is still at the bottom of the J and only beginning to bend upward. By 2030 the slope up will be much more obvious, just as it is for climate change, or feral rabbits.

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Marine Litter Vital Graphics, Maphoto/Riccardo Pravettoni 2018

If we had one Pacific Garbage Gyre twice the size of Texas in 2015, by 2035 we will have one the size of four Texases, and eight Texases by 2055. If the present Pacific Garbage Gyre kills 100,000 marine birds yearly, by mid-century it will be killing 8 times that many.

If each human baby born now has detectable microplastics in its blood, in 20 years its child will have twice that much, then double that, then twice that again as we go through this century.

Isn’t it time we asked why we design a material to last forever and then put that into objects intended to be discarded after a single use?

I almost ended this post right there. Many activists would have; posed the question and provided no answer. That may be the right way. It might even be the best way. But it is not the cowboy way. So we are traveling on.

An honest assessment of why we, the clever bipeds, make such gargantuan faux pas in cultural design is because we seldom reason together. Mostly we reason separately, or in small groups. We run in packs. So, when we consign decisions of this type to the pack having the skills or inclination, more often than not they are in that specific business for their own profit — in this case chemical companies — and so will decide the course that most favors them. You can’t say sustainability doesn’t factor, but it is economic sustainability over the course of one or more business cycles that gets consideration. Environmental and social costs only matter if they threaten profits.

The chemists working in corporate-financed labs are only doing what they are told — design something:

  • Cheap (without reference to social, environmental, disposal or clean-up costs);
  • Durable (even indestructible by natural decay processes);
  • Lightweight (even buoyant) and compact.

These design parameters apply equally to bio-based plastics, now growing at 40% per year (doubling time of 14 months for Bartlett fans), thanks to green consumer demand. Of course, bio-plastics are still plastics; still cheap, durable and lightweight, and just as much of an environmental problem. They just don’t consume as much fossil fuel to produce. Priced at a premium over their fossil cousins, they assuage guilt while building bottom line. They are like papal indulgences.

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Confronted by the NextGen market challenge to go ever greener, producers have come up with replacements for heavy metal-based additives and coatings, halogenated flame-retardants, carcinogenic styrenic petrochemicals, endocrine-disrupting phthalate plasticizing additives, and ozone-layer-depleting foaming agents. They have not found a substitute for the chlorine in PVC, even with corn- or cane-derived bio-PVC. There is just something about vinyl that’s … better.

Recycling is largely an illusion when it comes to plastic. Plastics are recovered at lower rates from US municipal solid waste than all other major material types, and for good reason. Even when uncontaminated, separating by type and form is as hard for recycling facilities as it is for consumers. Moreover, there are technical limits on the amount of recycled resin that can be used in a given product, most resins can only be reused once, the cost of recycled plastic may be higher than virgin plastic, and the range of products containing recycled content is limited.

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Global Plastic Production 1950 to 2016 (in million metric tons)

Where we wind up is with a challenge both to NextGen corporatists and NextGen chemists. Stop digging us into a deeper hole. To place the burden entirely on consumers, as most activists do, is unfair. In the next few years we need new products designed to degrade under natural conditions. At a minimum, all plastics should break down into harmless components in saltwater. Products that need to function in marine environments must be replaced with whatever was used before plastics.

That is a problem for our Anthropocene culture, whether you believe in market forces or social democracy as your favored regulatory authority. We need that change, and we need it quickly.

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Written by

Emergency Planetary Technician and Climate Science Wonk — using naturopathic remedies to recover the Holocene without geoengineering or ponzinomics.

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